个人简介
向中华,男,北京化工大学化学工程学院教授,博士生导师,国家重点研发计划项目负责人。主要从事共价有机聚合物(COP)能源材料的分子设计与工程制备。在AIChE J.、Angew.Chem. Int. Ed.、Adv. Mater.、Sci. Adv.、Nat. Commun.,等期刊发表论文110余篇,授权发明专利19件,6件已成功转让;牵头主持了科技部重点研发计划、国家基金委国际合作重点项目、国家优青、北京市杰青、中石油等企业横向项目;获国际发明协会金奖、教育部自然科学一等奖(2/4)等;但任Green Chem. Eng.、 eScience等期刊青年编委;中国可再生能源学会青年工作委员会副主任、中国化工学会国际学术交流工作委员会委员等。
教育经历
| 入学时间 |
毕业时间 |
学位授予单位 |
学历 |
| 2007-09-01 |
2013-06-25 |
北京化工大学 |
博士研究生毕业 |
| 2003-09-01 |
2007-07-01 |
湘潭大学 |
大学本科毕业 |
工作经历
| 起始年月 |
截止年月 |
所在单位名称 |
| 2014-07-01 |
至今 |
北京化工大学 |
| 2013-07-01 |
2014-07-01 |
美国凯斯西储大学 |
社会职务
但任Green Chem. Eng.、 eScience等期刊青年编委;中国可再生能源学会青年工作委员会副主任、中国化工学会国际学术交流工作委员会委员等
研究领域
共价有机聚合物(COP)能源材料的分子设计与工程制备 氨氢燃料电池发电 空气基液流电池 机器学习与机器人在新能源材料中的应用研发
本科生
| 课程名称 |
开课学年 |
课程总学时 |
选课人数 |
课程性质 |
| 化工技术经济评价与项目管理 |
2023 |
32 |
83 |
专业必修 |
| 化工技术经济评价与项目管理 |
2022 |
32 |
60 |
专业必修 |
| 化工专业实验 |
2022 |
1 |
22 |
实践环节必修 |
| 工程经济分析与项目管理 |
2020 |
16 |
92 |
专业必修 |
研究生
| 课程名称 |
开课学年 |
总学时 |
开课方式 |
| 化工能源学导论 |
2024 |
32 |
D专业选修课 |
| 化工能源学导论 |
2023 |
32 |
D专业选修课 |
| 化工能源学导论 |
2022 |
32 |
D专业选修课 |
| 化工能源学导论 |
2021 |
32 |
D专业选修课 |
| 化工能源学导论 |
2020 |
32 |
D专业选修课 |
| 化工能源学导论 |
2019 |
32 |
D专业选修课 |
| 化工能源学导论 |
2018 |
32 |
D专业选修课 |
| 化工能源学导论 |
2017 |
32 |
D专业选修课 |
| 化工能源学导论 |
2016 |
32 |
D专业选修课 |
校级项目
- 1. 受限空间中COP材料衍生碳的制备及电催化性能研究 ,化学工程学院,项目时间: 至 2016-12-31
纵向项目
- 1. 电子导电共价有机聚合物材料的智能设计制备与燃料电池器件 ,国家自然科学基金项目,项目时间:2023-01-01 至 2027-12-31
- 2. 非热解 COP 基锌镍空液流电池空气电极的设计制备与器件应用 ,省、市、自治区科技项目,项目时间:2023-01-01 至 2025-12-31
- 3. 数据驱动的氢能关键催化材料高效开发与应用 ,国家重点研发计划,项目时间:2022-11-01 至 2025-10-31
- 4. 高性能氢能催化材料的高通量制备 ,国家重点研发计划,项目时间:2022-11-01 至 2025-10-31
- 5. 共价有机多孔材料的功能设计与化工制备 ,国家自然科学基金项目,项目时间:2020-01-01 至 2022-12-31
- 6. 高活性纳米催化剂的定向合成与宏量制备 ,国家重点研发计划,项目时间:2019-11-01 至 2024-10-31
- 7. 下一代燃料电池纳米催化材料及器件 ,国家重点研发计划,项目时间:2019-11-01 至 2024-10-31
- 8. 非碳化共价有机聚合物基氧还原电催化剂的制备与性能研究 ,省、市、自治区科技项目,项目时间:2019-11-01 至 2022-12-01
- 9. 第三届中国科协青年人才托举工程 ,其他课题,项目时间:2019-01-01 至 2019-12-31
- 10. 面向锌-空气液流电池应用的共价有机聚合物基氧电极双效催化材料的研究 ,省、市、自治区科技项目,项目时间:2017-10-01 至 2019-12-31
- 11. 碳基纳米电催化剂的结构设计与可控制备 ,国家重点研发计划,项目时间:2017-07-01 至 2022-06-30
- 12. 共价有机聚合物基燃料电池高效氧还原催化剂的研究 ,国家自然科学基金项目,项目时间:2017-01-01 至 2020-12-31
- 13. 中国科协先进材料学会联合体青年人年托举工程 ,其他课题,项目时间:2017-01-01 至 2019-12-31
- 14. 球磨法宏量制备边缘功能化石墨烯技术研究 ,省、市、自治区科技项目,项目时间:2016-06-01 至 2018-05-30
- 15. 限域空间中二维共价有机聚合物衍生碳材料的制备及氧还原性能研究 ,国家自然科学基金项目,项目时间:2016-01-01 至 2018-12-31
- 16. 受限空间中共价有机聚合物石墨烯制备及其在锌-空液流电池中的应用 ,省、市、自治区科技项目,项目时间:2016-01-01 至 2018-12-31
横向项目
- 1. 氢燃料电池用新型铂催化剂的开发 ,企事业单位委托科技项目,项目时间:2024-04-01 至 2025-09-30
- 2. 质子交换膜燃料电池低铂催化剂及膜电极关键器件开发 ,其他课题,项目时间:2022-06-01 至 2023-09-30
- 3. 锌镍空复合液流电池储能新技术 ,其他研究项目,项目时间:2022-03-17 至 2023-12-31
- 4. 低成本锌镍空液流电池储能新技术 ,国家自然科学基金项目,项目时间:2022-03-15 至 2023-03-14
- 5. 燃料电池新型催化剂及千瓦级发电系统开发 ,自选课题,项目时间:2021-03-24 至 2021-12-31
- 6. 吸附材料制备及表征(Xe/Kr吸附材料) ,无依托项目研究成果,项目时间:2019-05-21 至 2020-05-20
- 7. 智能发热膜技术服务 ,企事业单位委托科技项目,项目时间:2018-11-08 至 2018-12-08
- 8. 一种反应磨法制备边缘羧基化石墨烯和石墨烯的方法 ,企事业单位委托科技项目,项目时间:2018-07-10 至 2019-07-10
论文信息
[+][-]代表性论文
-
1. DOI
赵林杰,蔡奇峰,毛宝光,毛俊杰,董慧,向中华,朱嘉,Rajib Paul,王丹,龙永德,曲良体,鄢日清,Liming Dai,胡传刚
A universal approach to dual-metal-atom catalytic sites confined in carbon dots for various target reactions[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2023-10-24
-
2. DOI
Han, Linkai;Yu, Haifeng;Xiang, Zhonghua
Asymmetric Active Sites for Boosting Oxygen Evolution Reaction[期刊论文],Small,2023-10-11
-
3. DOI
Mi, Chunxia;Yu, Haifeng;Han, Linkai;Zhang, Lirong;Zhai, Lingling;Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Symmetric Electronic Structures of Active Sites to Boost Bifunctional Oxygen Electrocatalysis by MN4+4 Sites Directly from Initial Covalent Organic Polymers[期刊论文],Advanced Functional Materials,2023-09-05
-
4. DOI
Yang, Bolong;Yu, Xiaogang;Hou, Jingkui;Xiang, Zhonghua
Secondary reduction strategy synthesis of Pt–Co nanoparticle catalysts towards boosting the activity of proton exchange membrane fuel cells[期刊论文],Particuology,2023-08-01
-
5. DOI
Yang, Bolong;Yu, Haifeng;Jia, Xudong;Cheng, Qian;Ren, Yaoliang;He, Bing;Xiang, Zhonghua
Atomically Dispersed Isolated Fe-Ce Dual-Metal-Site Catalysts for Proton-Exchange Membrane Fuel Cells[期刊论文],ACS Applied Materials and Interfaces,2023-05-17
-
6. DOI
鲍春竹;向中华
非热解共价有机聚合物基氧还原电催化材料[期刊论文],高等学校化学学报,2023-05-10
-
7. DOI
Li, Xueli;Chen, Tengge;Yang, Bolong;Xiang, Zhonghua
Fundamental Understanding of Electronic Structure in FeN4 Site on Electrocatalytic Activity via dz2-Orbital-Driven Charge Tuning for Acidic Oxygen Reduction[期刊论文],Angewandte Chemie - International Edition,2023-04-11
-
8. DOI
Yang, Bolong;Han, Qing;Han, Linkai;Leng, Yiming;O'Carroll, Thomas;Yang, Xiaoxuan;Wu, Gang;Xiang, Zhonghua
Porous Covalent Organic Polymer Coordinated Single Co Site Nanofibers for Efficient Oxygen-Reduction Cathodes in Polymer Electrolyte Fuel Cells[期刊论文],Advanced Materials,2023-01-05
-
9. DOI
Yang, Bolong;Li, Bingjie;Xiang, Zhonghua
Advanced MOF-based electrode materials for supercapacitors and electrocatalytic oxygen reduction[期刊论文],Nano Research,2023-01-01
-
10. DOI
Guo, Bingran;Guo, Jianing;Yang, Wenlu;Tian, Xiyao;Wang, Xi;Xiang, Zhonghua;Wu, Mingxing
Highly dispersed iron/nickel dual-sites in hierarchical porous carbon materials as high-performance bifunctional oxygen electrocatalysts for Zn-air batteries[期刊论文],Renewable Energy,2022-12-01
-
11. DOI
韩清;向中华
质子交换膜燃料电池阴极梯度催化层的数值模拟[期刊论文],化学反应工程与工艺,2022-10-25
-
12. DOI
Leng, Yiming;Yang, Bolong;Zhao, Yun;Xiang, Zhonghua
Fluorinated bimetallic nanoparticles decorated carbon nanofibers as highly active and durable oxygen electrocatalyst for fuel cells[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-10-01
-
13. DOI
Wang, Qian;Meng, Zhu;Li, Juntao;Peng, Shuming;Xiang, Zhonghua
High retention volume covalent organic polymer for xenon capture: Dynamic separation of Xe and Kr[期刊论文],Green Energy and Environment,2022-10-01
-
14. DOI
Yang, Bolong;Li, Xueli;Cheng, Qian;Jia, Xudong;Liu, Yujia;Xiang, Zhonghua
A highly efficient axial coordinated CoN5 electrocatalyst via pyrolysis-free strategy for alkaline polymer electrolyte fuel cells[期刊论文],NANO ENERGY,2022-10-01
-
15. DOI
Wang, Yi-Fei;Xiang, Heng-Yang;Zhou, Yi-Hui;Li, Xue-Li;Wang, Run;Xu, Bo;Liu, Jun;Li, Wei-Jin;Xiang, Zhong-Hua;Zeng, Hai-Bo
Perovskite Light Emitting Diodes Using Covalent Organic Polymers as Hole Injection Layers[期刊论文],Faguang Xuebao/Chinese Journal of Luminescence,2022-10-01
-
16. DOI
Cheng, Qian;Yang, Bolong;Wu, Wenyi;Xiang, Zhonghua
S-doped Fe-N-C as Catalysts for Highly Reactive Oxygen Reduction Reactions[期刊论文],Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities,2022-09-10
-
17. DOI
Li, Xueli;Liu, Qingbin;Yang, Bolong;Liao, Zhijian;Yan, Wensheng;Xiang, Zhonghua
An Initial Covalent Organic Polymer with Closed-F Edges Directly for Proton-Exchange-Membrane Fuel Cells[期刊论文],ADVANCED MATERIALS,2022-09-01
-
18. DOI
Zhao, Yun;Yu, Xiaogang;Wen, Xin;Luo, Yong;Xiang, Zhonghua;Chen, Jian-feng
HiGee strategy towards large-scale synthesis of soluble covalent organic frameworks[期刊论文],AIChE Journal,2022-08-25
-
19. DOI
谢宇新,余小刚,靳昭行,刘庆彬,赵云,向中华
Dual-template strategy synthesis of hierarchically porous electrocatalysts for oxygen reduction reaction[期刊论文],Advanced Sensor and Energy Materials,2022-06-06
-
20. DOI
Li, Xueli;Liu, Di;Liu, Qingbin;Xiang, Zhonghua
A Pyrolysis-Free Method Toward Large-Scale Synthesis of Ultra-Highly Efficient Bifunctional Oxygen Electrocatalyst for Zinc-Air Flow Batteries[期刊论文],Small,2022-05-26
-
21. DOI
Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Dithiine Bridged Phthalocyanine-Based Covalent Organic Frameworks for Highly Efficient Oxygen Reduction Reaction[期刊论文],Journal of Physical Chemistry C,2022-03-03
-
22. DOI
Cui, Juan;Leng, Yiming;Xiang, Zhonghua
FeNi co-doped electrocatalyst synthesized via binary ligand strategy as a bifunctional catalyst for Zn-air flow battery[期刊论文],Chemical Engineering Science,2022-01-16
-
23. DOI
Jiang, Minghang;Han, Linkai;Peng, Peng;Hu, Yi;Xiong, Yan;Mi, Chunxia;Tie, Zuoxiu;Xiang, Zhonghua;Jin, Zhong
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High-Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2022-01-12
-
24. DOI
李雪丽,向中华
Identifying the impact of the covalent-bonded carbon matrix to FeN4 sites for acidic oxygen reduction[期刊论文],Nature Communications,2022-01-06
-
25. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
26. DOI
Liu, Qingbin;Xu, Li;Liu, Shizhen;Xiang, Zhonghua
Binary ligand strategy toward interweaved encapsulation-nanotubes structured electrocatalyst for proton exchange membrane fuel cell[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-01-01
-
27. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
28. DOI
MInghang Jiang,Linkai Han,Peng Peng,Yi Hu,Yan Xiong,Chunxia Mi,向中华,金钟
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High- Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2021-12-21
-
29. DOI
Wu, Hao;Han, Linkai;Wang, Ni;Yun, Ling-Xia;Xiang, Zhonghua;Wang, Jie-Xin
Sodium laurate-assisted CeO2 nanoparticles as highly efficient and recyclable catalysts for cyanosilylation reaction[期刊论文],Applied Catalysis A: General,2021-11-25
-
30. DOI
Liu, Yaoyao;Yu, Haifeng;Shi, Chong;Xiang, Zhonghua
Localized electron density modulation in conjugated polymer nanosheets for boosting photocatalytic H-2 evolution[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2021-09-21
-
31. DOI
Zang, Ying;Mi, Chunxia;Wang, Rui;Chen, Hong;Peng, Peng;Xiang, Zhonghua;Zang, Shuang-Quan;Mak, Thomas C. W.
Pyrolysis-Free Synthesized Catalyst towards Acidic Oxygen Reduction by Deprotonation[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2021-09-13
-
32. DOI
Yang, Bolong;Han, Qing;Xiang, Zhonghua
Progress of membrane electrode structure and its design for proton exchange membrane fuel cell[期刊论文],Huagong Jinzhan/Chemical Industry and Engineering Progress,2021-09-05
-
33. DOI
Liu, Changfei;Liu, Yaoyao;Xiang, Zhonghua;Liu, Dahuan;Yang, Qingyuan
Bimetallic MOF-Derived Sulfides with Heterojunction Interfaces Synthesized for Photocatalytic Hydrogen Evolution[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2021-08-04
-
34. DOI
Liu, Yaoyao;Li, Bingjie;Xiang, Zhonghua
Pathways towards Boosting Solar-Driven Hydrogen Evolution of Conjugated Polymers[期刊论文],SMALL,2021-08-01
-
35. DOI
程元徽,周圣杰,王睿,高霞,张彦梅,向中华
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
36. DOI
Cheng, Yuanhui;Zhou, Shengjie;Wang, Rui;Gao, Xia;Zhang, Yanmei;Xiang, Zhonghua
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
37. DOI
Guo, Jianing;Li, Bingjie;Zhang, Qiyu;Liu, Qingtao;Wang, Zelin;Zhao, Yufei;Shui, Jianglan;Xiang, Zhonghua
Highly Accessible Atomically Dispersed Fe-N-x Sites Electrocatalyst for Proton-Exchange Membrane Fuel Cell[期刊论文],ADVANCED SCIENCE,2021-03-01
-
38. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xie, Lianhua;Liu, Yujia;Xiang, Zhonghua
A new steric tetra-imidazole for facile synthesis of high loading atomically dispersed FeN4 electrocatalysts[期刊论文],Nano Energy,2021-02-01
-
39. DOI
Guo, Jianing;Xiang, Zhonghua
Progress of metal macrocyclic compound-based oxygen reduction electrocatalysts[期刊论文],Huagong Xuebao/CIESC Journal,2021-01-01
-
40. DOI
向中华
非碳化共价有机聚合物材料的设计与能源催化[会议论文],第五届全国新能源与化工新材料学术会议--2020全国能量转换与存储材料学术研讨会摘要集,2020-10-15
-
41. DOI
赵云,张敏,文鑫,向中华
Microfluidic interface boosted synthesis of covalent organic polymer capsule[期刊论文],Green Chemical Engineering,2020-09-21
-
42. DOI
Gan, Jie;Hao, Chunyu;Guo, Jianing;Chen, Wenyao;Cao, Yueqiang;Luo, Wei;Huang, Zikun;Xiang, Zhonghua;Duan, Xuezhi;Zhou, Xinggui
How PM2.5 Affects Pt-Catalyzed Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-06-29
-
43. DOI
Zhao, Yun;Xiang, Zhonghua
Progress of microfluidic synthesis of metal/covalent organic frameworks[期刊论文],Huagong Xuebao/CIESC Journal,2020-06-01
-
44. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Pyrolysis-free approach towards synthesis of oxygen reduction electrocatalysts[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2020-05-15
-
45. DOI
郭佳宁,Huo Feng,程元徽,向中华
PAF-1 as oxygen tank to in-situ synthesize edge-exposed O-MoS2 for highly efficient hydrogen evolution[期刊论文],CATALYSIS TODAY,2020-05-01
-
46. DOI
Guo, Jianing;Huo, Feng;Cheng, Yuanhui;Xiang, Zhonghua
PAF-1 as oxygen tank to in -situ synthesize edge -exposed O-MoS 2 for highly efficient hydrogen evolution[会议论文],CATALYSIS TODAY,2020-05-01
-
47. DOI
赵云;向中华
微流控制备金属/共价有机框架功能材料研究进展[期刊论文],化工学报,2020-04-01
-
48. DOI
Li, Yang;Peng, Peng;Liao, Zhijian;Huo, Feng;Liu, Yujia;Shao, Xiaohong;Xiang, Zhonghua
Nitro-Group-Doped Fully Conjugated 2D Covalent Organic Polymers for Enhanced Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-03-09
-
49. DOI
Zhang, Weichao;Liu, Yujia;Luo, Yong;Xie, Chengpeng;Xiang, Zhonghua;Chen, Jian-Feng
HiGee Strategy toward Rapid Mass Production of Porous Covalent Organic Polymers with Superior Methane Deliverable Capacity[期刊论文],ADVANCED FUNCTIONAL MATERIALS,2020-03-01
-
50. DOI
Xia Zhenhai,向中华
Editorial: Catalysts for Clean Energy Conversion and Storage.[期刊论文],Frontiers in Materials,2020-02-21
-
51. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],FRONTIERS IN MATERIALS,2020-02-21
-
52. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],Frontiers in Materials,2020-02-21
-
53. DOI
Xu, Baolin;Qi, Shihan;Jin, Mengmeng;Cai, Xiaoyi;Lai, Linfei;Sun, Zhouting;Han, Xiaogang;Lin, Zifeng;Shao, Hui;Peng, Peng;Xiang, Zhonghua;ten Elshof, Johan E.;Tan, Rou;Liu, Chen;Zhang, Zhaoxi;Duan, Xiaochuan;Ma, Jianmin
2020 roadmap on two-dimensional materials for energy storage and conversion[期刊论文],CHINESE CHEMICAL LETTERS,2019-12-01
-
54. DOI
Jin, Liming;Guo, Xin;Gong, Ruiqi;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Zheng, Jim P.
Target-oriented electrode constructions toward ultra-fast and ultra-stable all-graphene lithium ion capacitors[期刊论文],ENERGY STORAGE MATERIALS,2019-12-01
-
55. DOI
Liu, Yaoyao;Xiang, Zhonghua
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2019-11-06
-
56. DOI
刘瑶瑶,向中华
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater.[期刊论文],ACS Applied Materials & Interfaces,2019-10-15
-
57. DOI
李阳,彭鹏,Huo Feng,Shao Xiaohong,向中华
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],Frontiers in Materials,2019-10-04
-
58. DOI
Li, Yang;Peng, Peng;Huo, Feng;Shao, Xiaohong;Xiang, Zhonghua
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],FRONTIERS IN MATERIALS,2019-10-04
-
59. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Soluble Covalent Organic Polymer for the Flexible Electrode of Supercapacitors[期刊论文],FRONTIERS IN MATERIALS,2019-10-02
-
60. DOI
Li, Yan;Chen, Junxiang;Huang, Junheng;Hou, Yang;Lei, Lecheng;Lin, Wanzhen;Lian, Yaping;Xiang Zhonghua;Yang, Huang-Hao;Wen, Zhenhai
Interfacial engineering of Ru-S-Sb/antimonene electrocatalysts for highly efficient electrolytic hydrogen generation in neutral electrolyte[期刊论文],CHEMICAL COMMUNICATIONS,2019-09-18
-
61. DOI
Cheng, Yuanhui;Guo, Yinjian;Zhang, Ningyuan;Tao, Shuo;Liao, Zhijian;Wang, Yalan;Xiang, Zhonghua
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],NANO ENERGY,2019-09-01
-
62. DOI
Cheng, Yuanhui;Zhang, Ningyuan;Wang, Qiuli;Guo, Yinjian;Tao, Shuo;Liao, Zhijian;Jiang, Peng;Xiang, Zhonghua
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],NANO ENERGY,2019-09-01
-
63. DOI
程元徽,郭银建,张宁远,陶硕,廖之建,王雅岚,向中华
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],Nano Energy,2019-07-10
-
64. DOI
程元徽,张宁远,王秋丽,郭银建,陶硕,廖之剑,姜鹏,向中华
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],Nano Energy,2019-06-13
-
65. DOI
Cheng, Yuanhui;Wang, Yalan;Wang, Qiuli;Liao, Zhijian;Zhang, Ningyuan;Guo, Yinjian;Xiang, Zhonghua
Hierarchically porous metal-free carbon with record high mass activity for oxygen reduction and Zn-air batteries[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-28
-
66. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: a 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-14
-
67. DOI
Liao, Zhijian;Wang, Yalan;Wang, Qiuli;Cheng, Yuanhui;Xiang, Zhonghua
Bimetal-phthalocyanine based covalent organic polymers for highly efficient oxygen electrode[期刊论文],APPLIED CATALYSIS B-ENVIRONMENTAL,2019-04-01
-
68. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xiang, Zhonghua
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
69. DOI
林欣欣,彭鹏,郭佳宁,向中华
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
70. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],Nanoscale,2019-01-07
-
71. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],NANOSCALE,2019-01-07
-
72. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],J. Energy Chem.,2019-01-01
-
73. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: A 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],J. Mater. Chem. A,2019-01-01
-
74. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2019-01-01
-
75. DOI
Zhao, Yun;Xiang, Zhonghua
Synthesis of zeolitic imidazolate frameworks in droplet microfluidic system[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2018-12-01
-
76. DOI
Shi, Lei;Qi, Ziyuan;Peng, Peng;Guo, Jianing;Wan, Gang;Cao, Dapeng;Xiang, Zhonghua
Pyrene-Based Covalent Organic Polymers for Enhanced Photovoltaic Performance and Solar-Driven Hydrogen Production[期刊论文],ACS APPLIED ENERGY MATERIALS,2018-12-01
-
77. DOI
赵云,廖芝建,向中华
Microfluidics for synthesis and morphology control of hierarchical porous covalent organic polymer monolith[期刊论文],CHEMICAL ENGINEERING SCIENCE,2018-10-19
-
78. DOI
赵云;向中华
液滴式微流控芯片制备沸石咪唑骨架材料[期刊论文],科学通报,2018-09-27
-
79. DOI
Guo, Jianing;Lin, Chun-Yu;Xia, Zhenhai;Xiang, Zhonghua
A Pyrolysis-Free Covalent Organic Polymer for Oxygen Reduction[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2018-09-17
-
80. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
81. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
82. DOI
Xiang, Zhonghua
Covalent organic polymers for electrocatalysis[会议论文],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2018-08-19
-
83. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
84. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
85. DOI
张伟超,程元徽,郭春帅,谢程鹏,向中华
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],Industrial & Engineering Chemistry Research,2018-07-19
-
86. DOI
Yang, Liu;Cheng, Daojian;Zeng, Xiaofei;Wan, Xin;Shui, Jianglan;Xiang, Zhonghua;Cao, Dapeng
Unveiling the high-activity origin of single-atom iron catalysts for oxygen reduction reaction[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2018-06-26
-
87. DOI
Shi, Lei;Peng, Peng;Xiang, Zhonghua
Controlled synthesis of porous nitrogen-doped carbon nanoshells for highly efficient oxygen reduction[期刊论文],REACTION CHEMISTRY & ENGINEERING,2018-06-01
-
88. DOI
Xu, Jing;Huo, Feng;Zhao, Yufei;Liu, Yaoyao;Yang, Qingqing;Cheng, Yuanhui;Min, Shixiong;Jin, Zhiliang;Xiang, Zhonghua
In-situ La doped Co3O4 as highly efficient photocatalyst for solar hydrogen generation[期刊论文],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018-05-03
-
89. DOI
Ma, Jizhen;Xiang, Zhonghua;Zhang, Jintao
Three-dimensional nitrogen and phosphorous Co-doped graphene aerogel electrocatalysts for efficient oxygen reduction reaction[期刊论文],SCIENCE CHINA-CHEMISTRY,2018-05-01
-
90. DOI
Cheng, Yuanhui;Li, Dongming;Shi, Lei;Xiang, Zhonghua
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],NANO ENERGY,2018-05-01
-
91. DOI
Zhou, Zhuohang;Peng, Peng;Xiang, Zhonghua
N-rich covalent organic polymer in situ modified TiO2 for highly efficient photocatalytic hydrogen evolution[期刊论文],SCIENCE BULLETIN,2018-03-30
-
92. DOI
程元徽,李东明,石磊,向中华
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],Nano Energy,2018-03-07
-
93. DOI
Meng, Zhu;Li, Juntao;Huo, Feng;Huang, Yan;Xiang, Zhonghua
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-12-31
-
94. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
95. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
96. DOI
孟竹,黄燕,向中华,Juntao Li,Feng Huo
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],Chemical Engineering Science,2017-09-08
-
97. DOI
黄燕;李鼎;孟竹;周卓航;郭佳宁;程元徽;向中华
共价有机聚合物的合成及在燃料电池阴极氧还原反应中的应用[期刊论文],中国材料进展,2017-09-05
-
98. DOI
Guo, Jianing;Cheng, Yuanhui;Xiang, Zhonghua
Confined-Space-Assisted Preparation of Fe3O4-Nanoparticle-Modified Fe-N-C Catalysts Derived from a Covalent Organic Polymer for Oxygen Reduction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2017-09-01
-
99. DOI
Guo, Jianing;Li, Yang;Cheng, Yuanhui;Dai, Liming;Xiang, Zhonghua
Highly Efficient Oxygen Reduction Reaction Electrocatalysts Synthesized under Nanospace Confinement of Metal-Oganic Framework[期刊论文],ACS NANO,2017-08-01
-
100. DOI
Peng, Peng;Zhou, Zhuohang;Guo, Jianing;Xiang, Zhonghua
Well-Defined 2D Covalent Organic Polymers for Energy Electrocatalysis[期刊论文],ACS ENERGY LETTERS,2017-06-01
-
101. DOI
Cheng, Yuanhui;Guo, Jianing;Huang, Yan;Liao, Zhijian;Xiang, Zhonghua
Ultrastable hydrogen evolution electrocatalyst derived from phosphide postmodified metal-organic frameworks[期刊论文],NANO ENERGY,2017-05-01
-
102. DOI
Yang, Qingqing;Peng, Peng;Xiang, Zhonghua
Covalent organic polymer modified TiO2 nanosheets as highly efficient photocatalysts for hydrogen generation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-04-27
-
103. DOI
Xie,Chengpeng;Huo,Feng;Huang,Yan;Cheng,Yuanhui;Liu,Guangqing;Xiang,Zhonghua
Holey Graphitic Carbon Derived from Covalent Organic Polymers Impregnated with Nonprecious Metals for CO 2 Capture from Natural Gas[期刊论文],Particle and Particle Systems Characterization,2017-02-01
-
104. DOI
Xiang, Zhonghua;Zhu, Lin;Qi, Lei;Yan, Lu;Xue, Yuhua;Wang, Dan;Chen, Jian-Feng;Dai, Liming
Two-Dimensional Fully Conjugated Polymeric Photosensitizers for Advanced Photodynamic Therapy[期刊论文],CHEMISTRY OF MATERIALS,2016-12-13
-
105. DOI
Lu, Ke;Hu, Ziyu;Xiang, Zhonghua;Ma, Jizhen;Song, Bin;Zhang, Jintao;Ma, Houyi
Cation Intercalation in Manganese Oxide Nanosheets: Effects on Lithium and Sodium Storage[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2016-08-22
-
106. DOI
Xiang, Zhonghua;Dai, Quanbin;Chen, Jian-Feng;Dai, Liming
Edge Functionalization of Graphene and Two-Dimensional Covalent Organic Polymers for Energy Conversion and Storage[期刊论文],ADVANCED MATERIALS,2016-08-03
-
107. DOI
Fu, Yu'ang;Huang, Yan;Xiang, Zhonghua;Liu, Guangqing;Cao, Dapeng
Phosphorous-Nitrogen-Codoped Carbon Materials Derived from Metal-Organic Frameworks as Efficient Electrocatalysts for Oxygen Reduction Reactions[期刊论文],EUROPEAN JOURNAL OF INORGANIC CHEMISTRY,2016-05-01
-
108. DOI
Xiang, Zhonghua;Mercado, Rocio;Huck, Johanna M.;Wang, Hui;Guo, Zhanhu;Wang, Wenchuan;Cao, Dapeng;Haranczyk, Maciej;Smit, Berend
Systematic Tuning and Multifunctionalization of Covalent Organic Polymers for Enhanced Carbon Capture[期刊论文],JOURNAL OF THE AMERICAN CHEMICAL SOCIETY,2015-10-21
-
109. DOI
向中华
面向能源转化与存储应用的共价多孔骨架材料的可控制备[会议论文],2015年中国化工学会年会论文集,2015-10-17
-
110. DOI
Wan Gang;Fu Yu'ang;Guo Jianing;Xiang Zhonghua
Photoelectronic Porous Covalent Organic Materials: Research Progress and Perspective[期刊论文],ACTA CHIMICA SINICA,2015-06-15
-
111. DOI
Xiang, Zhonghua;Cao, Dapeng;Shao, Xiaohong;Wang, Wenchuan;Zhang, Jianwei;Wu, Weize
Facile preparation of high-capacity hydrogen storage metal-organic frameworks : A combination of microwave-assisted solvothermal synthesis and supercritical activation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2010-05-15
[+][-]
2030年
-
1. DOI
赵林杰,蔡奇峰,毛宝光,毛俊杰,董慧,向中华,朱嘉,Rajib Paul,王丹,龙永德,曲良体,鄢日清,Liming Dai,胡传刚
A universal approach to dual-metal-atom catalytic sites confined in carbon dots for various target reactions[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2023-10-24
-
2. DOI
Han, Linkai;Yu, Haifeng;Xiang, Zhonghua
Asymmetric Active Sites for Boosting Oxygen Evolution Reaction[期刊论文],Small,2023-10-11
-
3. DOI
Mi, Chunxia;Yu, Haifeng;Han, Linkai;Zhang, Lirong;Zhai, Lingling;Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Symmetric Electronic Structures of Active Sites to Boost Bifunctional Oxygen Electrocatalysis by MN4+4 Sites Directly from Initial Covalent Organic Polymers[期刊论文],Advanced Functional Materials,2023-09-05
-
4. DOI
Yang, Bolong;Yu, Xiaogang;Hou, Jingkui;Xiang, Zhonghua
Secondary reduction strategy synthesis of Pt–Co nanoparticle catalysts towards boosting the activity of proton exchange membrane fuel cells[期刊论文],Particuology,2023-08-01
-
5. DOI
Yang, Bolong;Yu, Haifeng;Jia, Xudong;Cheng, Qian;Ren, Yaoliang;He, Bing;Xiang, Zhonghua
Atomically Dispersed Isolated Fe-Ce Dual-Metal-Site Catalysts for Proton-Exchange Membrane Fuel Cells[期刊论文],ACS Applied Materials and Interfaces,2023-05-17
-
6. DOI
鲍春竹;向中华
非热解共价有机聚合物基氧还原电催化材料[期刊论文],高等学校化学学报,2023-05-10
-
7. DOI
Li, Xueli;Chen, Tengge;Yang, Bolong;Xiang, Zhonghua
Fundamental Understanding of Electronic Structure in FeN4 Site on Electrocatalytic Activity via dz2-Orbital-Driven Charge Tuning for Acidic Oxygen Reduction[期刊论文],Angewandte Chemie - International Edition,2023-04-11
-
8. DOI
Yang, Bolong;Han, Qing;Han, Linkai;Leng, Yiming;O'Carroll, Thomas;Yang, Xiaoxuan;Wu, Gang;Xiang, Zhonghua
Porous Covalent Organic Polymer Coordinated Single Co Site Nanofibers for Efficient Oxygen-Reduction Cathodes in Polymer Electrolyte Fuel Cells[期刊论文],Advanced Materials,2023-01-05
-
9. DOI
Yang, Bolong;Li, Bingjie;Xiang, Zhonghua
Advanced MOF-based electrode materials for supercapacitors and electrocatalytic oxygen reduction[期刊论文],Nano Research,2023-01-01
-
10. DOI
Guo, Bingran;Guo, Jianing;Yang, Wenlu;Tian, Xiyao;Wang, Xi;Xiang, Zhonghua;Wu, Mingxing
Highly dispersed iron/nickel dual-sites in hierarchical porous carbon materials as high-performance bifunctional oxygen electrocatalysts for Zn-air batteries[期刊论文],Renewable Energy,2022-12-01
-
11. DOI
韩清;向中华
质子交换膜燃料电池阴极梯度催化层的数值模拟[期刊论文],化学反应工程与工艺,2022-10-25
-
12. DOI
Leng, Yiming;Yang, Bolong;Zhao, Yun;Xiang, Zhonghua
Fluorinated bimetallic nanoparticles decorated carbon nanofibers as highly active and durable oxygen electrocatalyst for fuel cells[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-10-01
-
13. DOI
Wang, Qian;Meng, Zhu;Li, Juntao;Peng, Shuming;Xiang, Zhonghua
High retention volume covalent organic polymer for xenon capture: Dynamic separation of Xe and Kr[期刊论文],Green Energy and Environment,2022-10-01
-
14. DOI
Yang, Bolong;Li, Xueli;Cheng, Qian;Jia, Xudong;Liu, Yujia;Xiang, Zhonghua
A highly efficient axial coordinated CoN5 electrocatalyst via pyrolysis-free strategy for alkaline polymer electrolyte fuel cells[期刊论文],NANO ENERGY,2022-10-01
-
15. DOI
Wang, Yi-Fei;Xiang, Heng-Yang;Zhou, Yi-Hui;Li, Xue-Li;Wang, Run;Xu, Bo;Liu, Jun;Li, Wei-Jin;Xiang, Zhong-Hua;Zeng, Hai-Bo
Perovskite Light Emitting Diodes Using Covalent Organic Polymers as Hole Injection Layers[期刊论文],Faguang Xuebao/Chinese Journal of Luminescence,2022-10-01
-
16. DOI
Cheng, Qian;Yang, Bolong;Wu, Wenyi;Xiang, Zhonghua
S-doped Fe-N-C as Catalysts for Highly Reactive Oxygen Reduction Reactions[期刊论文],Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities,2022-09-10
-
17. DOI
Li, Xueli;Liu, Qingbin;Yang, Bolong;Liao, Zhijian;Yan, Wensheng;Xiang, Zhonghua
An Initial Covalent Organic Polymer with Closed-F Edges Directly for Proton-Exchange-Membrane Fuel Cells[期刊论文],ADVANCED MATERIALS,2022-09-01
-
18. DOI
Zhao, Yun;Yu, Xiaogang;Wen, Xin;Luo, Yong;Xiang, Zhonghua;Chen, Jian-feng
HiGee strategy towards large-scale synthesis of soluble covalent organic frameworks[期刊论文],AIChE Journal,2022-08-25
-
19. DOI
谢宇新,余小刚,靳昭行,刘庆彬,赵云,向中华
Dual-template strategy synthesis of hierarchically porous electrocatalysts for oxygen reduction reaction[期刊论文],Advanced Sensor and Energy Materials,2022-06-06
-
20. DOI
Li, Xueli;Liu, Di;Liu, Qingbin;Xiang, Zhonghua
A Pyrolysis-Free Method Toward Large-Scale Synthesis of Ultra-Highly Efficient Bifunctional Oxygen Electrocatalyst for Zinc-Air Flow Batteries[期刊论文],Small,2022-05-26
-
21. DOI
Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Dithiine Bridged Phthalocyanine-Based Covalent Organic Frameworks for Highly Efficient Oxygen Reduction Reaction[期刊论文],Journal of Physical Chemistry C,2022-03-03
-
22. DOI
Cui, Juan;Leng, Yiming;Xiang, Zhonghua
FeNi co-doped electrocatalyst synthesized via binary ligand strategy as a bifunctional catalyst for Zn-air flow battery[期刊论文],Chemical Engineering Science,2022-01-16
-
23. DOI
Jiang, Minghang;Han, Linkai;Peng, Peng;Hu, Yi;Xiong, Yan;Mi, Chunxia;Tie, Zuoxiu;Xiang, Zhonghua;Jin, Zhong
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High-Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2022-01-12
-
24. DOI
李雪丽,向中华
Identifying the impact of the covalent-bonded carbon matrix to FeN4 sites for acidic oxygen reduction[期刊论文],Nature Communications,2022-01-06
-
25. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
26. DOI
Liu, Qingbin;Xu, Li;Liu, Shizhen;Xiang, Zhonghua
Binary ligand strategy toward interweaved encapsulation-nanotubes structured electrocatalyst for proton exchange membrane fuel cell[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-01-01
-
27. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
28. DOI
MInghang Jiang,Linkai Han,Peng Peng,Yi Hu,Yan Xiong,Chunxia Mi,向中华,金钟
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High- Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2021-12-21
-
29. DOI
Wu, Hao;Han, Linkai;Wang, Ni;Yun, Ling-Xia;Xiang, Zhonghua;Wang, Jie-Xin
Sodium laurate-assisted CeO2 nanoparticles as highly efficient and recyclable catalysts for cyanosilylation reaction[期刊论文],Applied Catalysis A: General,2021-11-25
-
30. DOI
Liu, Yaoyao;Yu, Haifeng;Shi, Chong;Xiang, Zhonghua
Localized electron density modulation in conjugated polymer nanosheets for boosting photocatalytic H-2 evolution[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2021-09-21
-
31. DOI
Zang, Ying;Mi, Chunxia;Wang, Rui;Chen, Hong;Peng, Peng;Xiang, Zhonghua;Zang, Shuang-Quan;Mak, Thomas C. W.
Pyrolysis-Free Synthesized Catalyst towards Acidic Oxygen Reduction by Deprotonation[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2021-09-13
-
32. DOI
Yang, Bolong;Han, Qing;Xiang, Zhonghua
Progress of membrane electrode structure and its design for proton exchange membrane fuel cell[期刊论文],Huagong Jinzhan/Chemical Industry and Engineering Progress,2021-09-05
-
33. DOI
Liu, Changfei;Liu, Yaoyao;Xiang, Zhonghua;Liu, Dahuan;Yang, Qingyuan
Bimetallic MOF-Derived Sulfides with Heterojunction Interfaces Synthesized for Photocatalytic Hydrogen Evolution[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2021-08-04
-
34. DOI
Liu, Yaoyao;Li, Bingjie;Xiang, Zhonghua
Pathways towards Boosting Solar-Driven Hydrogen Evolution of Conjugated Polymers[期刊论文],SMALL,2021-08-01
-
35. DOI
程元徽,周圣杰,王睿,高霞,张彦梅,向中华
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
36. DOI
Cheng, Yuanhui;Zhou, Shengjie;Wang, Rui;Gao, Xia;Zhang, Yanmei;Xiang, Zhonghua
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
37. DOI
Guo, Jianing;Li, Bingjie;Zhang, Qiyu;Liu, Qingtao;Wang, Zelin;Zhao, Yufei;Shui, Jianglan;Xiang, Zhonghua
Highly Accessible Atomically Dispersed Fe-N-x Sites Electrocatalyst for Proton-Exchange Membrane Fuel Cell[期刊论文],ADVANCED SCIENCE,2021-03-01
-
38. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xie, Lianhua;Liu, Yujia;Xiang, Zhonghua
A new steric tetra-imidazole for facile synthesis of high loading atomically dispersed FeN4 electrocatalysts[期刊论文],Nano Energy,2021-02-01
-
39. DOI
Guo, Jianing;Xiang, Zhonghua
Progress of metal macrocyclic compound-based oxygen reduction electrocatalysts[期刊论文],Huagong Xuebao/CIESC Journal,2021-01-01
-
40. DOI
向中华
非碳化共价有机聚合物材料的设计与能源催化[会议论文],第五届全国新能源与化工新材料学术会议--2020全国能量转换与存储材料学术研讨会摘要集,2020-10-15
-
41. DOI
赵云,张敏,文鑫,向中华
Microfluidic interface boosted synthesis of covalent organic polymer capsule[期刊论文],Green Chemical Engineering,2020-09-21
-
42. DOI
Gan, Jie;Hao, Chunyu;Guo, Jianing;Chen, Wenyao;Cao, Yueqiang;Luo, Wei;Huang, Zikun;Xiang, Zhonghua;Duan, Xuezhi;Zhou, Xinggui
How PM2.5 Affects Pt-Catalyzed Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-06-29
-
43. DOI
Zhao, Yun;Xiang, Zhonghua
Progress of microfluidic synthesis of metal/covalent organic frameworks[期刊论文],Huagong Xuebao/CIESC Journal,2020-06-01
-
44. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Pyrolysis-free approach towards synthesis of oxygen reduction electrocatalysts[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2020-05-15
-
45. DOI
郭佳宁,Huo Feng,程元徽,向中华
PAF-1 as oxygen tank to in-situ synthesize edge-exposed O-MoS2 for highly efficient hydrogen evolution[期刊论文],CATALYSIS TODAY,2020-05-01
-
46. DOI
Guo, Jianing;Huo, Feng;Cheng, Yuanhui;Xiang, Zhonghua
PAF-1 as oxygen tank to in -situ synthesize edge -exposed O-MoS 2 for highly efficient hydrogen evolution[会议论文],CATALYSIS TODAY,2020-05-01
-
47. DOI
赵云;向中华
微流控制备金属/共价有机框架功能材料研究进展[期刊论文],化工学报,2020-04-01
-
48. DOI
Li, Yang;Peng, Peng;Liao, Zhijian;Huo, Feng;Liu, Yujia;Shao, Xiaohong;Xiang, Zhonghua
Nitro-Group-Doped Fully Conjugated 2D Covalent Organic Polymers for Enhanced Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-03-09
-
49. DOI
Zhang, Weichao;Liu, Yujia;Luo, Yong;Xie, Chengpeng;Xiang, Zhonghua;Chen, Jian-Feng
HiGee Strategy toward Rapid Mass Production of Porous Covalent Organic Polymers with Superior Methane Deliverable Capacity[期刊论文],ADVANCED FUNCTIONAL MATERIALS,2020-03-01
-
50. DOI
Xia Zhenhai,向中华
Editorial: Catalysts for Clean Energy Conversion and Storage.[期刊论文],Frontiers in Materials,2020-02-21
-
51. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],FRONTIERS IN MATERIALS,2020-02-21
-
52. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],Frontiers in Materials,2020-02-21
-
53. DOI
Xu, Baolin;Qi, Shihan;Jin, Mengmeng;Cai, Xiaoyi;Lai, Linfei;Sun, Zhouting;Han, Xiaogang;Lin, Zifeng;Shao, Hui;Peng, Peng;Xiang, Zhonghua;ten Elshof, Johan E.;Tan, Rou;Liu, Chen;Zhang, Zhaoxi;Duan, Xiaochuan;Ma, Jianmin
2020 roadmap on two-dimensional materials for energy storage and conversion[期刊论文],CHINESE CHEMICAL LETTERS,2019-12-01
-
54. DOI
Jin, Liming;Guo, Xin;Gong, Ruiqi;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Zheng, Jim P.
Target-oriented electrode constructions toward ultra-fast and ultra-stable all-graphene lithium ion capacitors[期刊论文],ENERGY STORAGE MATERIALS,2019-12-01
-
55. DOI
Liu, Yaoyao;Xiang, Zhonghua
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2019-11-06
-
56. DOI
刘瑶瑶,向中华
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater.[期刊论文],ACS Applied Materials & Interfaces,2019-10-15
-
57. DOI
李阳,彭鹏,Huo Feng,Shao Xiaohong,向中华
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],Frontiers in Materials,2019-10-04
-
58. DOI
Li, Yang;Peng, Peng;Huo, Feng;Shao, Xiaohong;Xiang, Zhonghua
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],FRONTIERS IN MATERIALS,2019-10-04
-
59. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Soluble Covalent Organic Polymer for the Flexible Electrode of Supercapacitors[期刊论文],FRONTIERS IN MATERIALS,2019-10-02
-
60. DOI
Li, Yan;Chen, Junxiang;Huang, Junheng;Hou, Yang;Lei, Lecheng;Lin, Wanzhen;Lian, Yaping;Xiang Zhonghua;Yang, Huang-Hao;Wen, Zhenhai
Interfacial engineering of Ru-S-Sb/antimonene electrocatalysts for highly efficient electrolytic hydrogen generation in neutral electrolyte[期刊论文],CHEMICAL COMMUNICATIONS,2019-09-18
-
61. DOI
Cheng, Yuanhui;Guo, Yinjian;Zhang, Ningyuan;Tao, Shuo;Liao, Zhijian;Wang, Yalan;Xiang, Zhonghua
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],NANO ENERGY,2019-09-01
-
62. DOI
Cheng, Yuanhui;Zhang, Ningyuan;Wang, Qiuli;Guo, Yinjian;Tao, Shuo;Liao, Zhijian;Jiang, Peng;Xiang, Zhonghua
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],NANO ENERGY,2019-09-01
-
63. DOI
程元徽,郭银建,张宁远,陶硕,廖之建,王雅岚,向中华
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],Nano Energy,2019-07-10
-
64. DOI
程元徽,张宁远,王秋丽,郭银建,陶硕,廖之剑,姜鹏,向中华
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],Nano Energy,2019-06-13
-
65. DOI
Cheng, Yuanhui;Wang, Yalan;Wang, Qiuli;Liao, Zhijian;Zhang, Ningyuan;Guo, Yinjian;Xiang, Zhonghua
Hierarchically porous metal-free carbon with record high mass activity for oxygen reduction and Zn-air batteries[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-28
-
66. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: a 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-14
-
67. DOI
Liao, Zhijian;Wang, Yalan;Wang, Qiuli;Cheng, Yuanhui;Xiang, Zhonghua
Bimetal-phthalocyanine based covalent organic polymers for highly efficient oxygen electrode[期刊论文],APPLIED CATALYSIS B-ENVIRONMENTAL,2019-04-01
-
68. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xiang, Zhonghua
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
69. DOI
林欣欣,彭鹏,郭佳宁,向中华
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
70. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],Nanoscale,2019-01-07
-
71. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],NANOSCALE,2019-01-07
-
72. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],J. Energy Chem.,2019-01-01
-
73. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: A 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],J. Mater. Chem. A,2019-01-01
-
74. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2019-01-01
-
75. DOI
Zhao, Yun;Xiang, Zhonghua
Synthesis of zeolitic imidazolate frameworks in droplet microfluidic system[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2018-12-01
-
76. DOI
Shi, Lei;Qi, Ziyuan;Peng, Peng;Guo, Jianing;Wan, Gang;Cao, Dapeng;Xiang, Zhonghua
Pyrene-Based Covalent Organic Polymers for Enhanced Photovoltaic Performance and Solar-Driven Hydrogen Production[期刊论文],ACS APPLIED ENERGY MATERIALS,2018-12-01
-
77. DOI
赵云,廖芝建,向中华
Microfluidics for synthesis and morphology control of hierarchical porous covalent organic polymer monolith[期刊论文],CHEMICAL ENGINEERING SCIENCE,2018-10-19
-
78. DOI
赵云;向中华
液滴式微流控芯片制备沸石咪唑骨架材料[期刊论文],科学通报,2018-09-27
-
79. DOI
Guo, Jianing;Lin, Chun-Yu;Xia, Zhenhai;Xiang, Zhonghua
A Pyrolysis-Free Covalent Organic Polymer for Oxygen Reduction[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2018-09-17
-
80. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
81. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
82. DOI
Xiang, Zhonghua
Covalent organic polymers for electrocatalysis[会议论文],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2018-08-19
-
83. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
84. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
85. DOI
张伟超,程元徽,郭春帅,谢程鹏,向中华
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],Industrial & Engineering Chemistry Research,2018-07-19
-
86. DOI
Yang, Liu;Cheng, Daojian;Zeng, Xiaofei;Wan, Xin;Shui, Jianglan;Xiang, Zhonghua;Cao, Dapeng
Unveiling the high-activity origin of single-atom iron catalysts for oxygen reduction reaction[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2018-06-26
-
87. DOI
Shi, Lei;Peng, Peng;Xiang, Zhonghua
Controlled synthesis of porous nitrogen-doped carbon nanoshells for highly efficient oxygen reduction[期刊论文],REACTION CHEMISTRY & ENGINEERING,2018-06-01
-
88. DOI
Xu, Jing;Huo, Feng;Zhao, Yufei;Liu, Yaoyao;Yang, Qingqing;Cheng, Yuanhui;Min, Shixiong;Jin, Zhiliang;Xiang, Zhonghua
In-situ La doped Co3O4 as highly efficient photocatalyst for solar hydrogen generation[期刊论文],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018-05-03
-
89. DOI
Ma, Jizhen;Xiang, Zhonghua;Zhang, Jintao
Three-dimensional nitrogen and phosphorous Co-doped graphene aerogel electrocatalysts for efficient oxygen reduction reaction[期刊论文],SCIENCE CHINA-CHEMISTRY,2018-05-01
-
90. DOI
Cheng, Yuanhui;Li, Dongming;Shi, Lei;Xiang, Zhonghua
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],NANO ENERGY,2018-05-01
-
91. DOI
Zhou, Zhuohang;Peng, Peng;Xiang, Zhonghua
N-rich covalent organic polymer in situ modified TiO2 for highly efficient photocatalytic hydrogen evolution[期刊论文],SCIENCE BULLETIN,2018-03-30
-
92. DOI
程元徽,李东明,石磊,向中华
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],Nano Energy,2018-03-07
-
93. DOI
Meng, Zhu;Li, Juntao;Huo, Feng;Huang, Yan;Xiang, Zhonghua
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-12-31
-
94. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
95. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
96. DOI
孟竹,黄燕,向中华,Juntao Li,Feng Huo
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],Chemical Engineering Science,2017-09-08
-
97. DOI
黄燕;李鼎;孟竹;周卓航;郭佳宁;程元徽;向中华
共价有机聚合物的合成及在燃料电池阴极氧还原反应中的应用[期刊论文],中国材料进展,2017-09-05
-
98. DOI
Guo, Jianing;Cheng, Yuanhui;Xiang, Zhonghua
Confined-Space-Assisted Preparation of Fe3O4-Nanoparticle-Modified Fe-N-C Catalysts Derived from a Covalent Organic Polymer for Oxygen Reduction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2017-09-01
-
99. DOI
Guo, Jianing;Li, Yang;Cheng, Yuanhui;Dai, Liming;Xiang, Zhonghua
Highly Efficient Oxygen Reduction Reaction Electrocatalysts Synthesized under Nanospace Confinement of Metal-Oganic Framework[期刊论文],ACS NANO,2017-08-01
-
100. DOI
Peng, Peng;Zhou, Zhuohang;Guo, Jianing;Xiang, Zhonghua
Well-Defined 2D Covalent Organic Polymers for Energy Electrocatalysis[期刊论文],ACS ENERGY LETTERS,2017-06-01
-
101. DOI
Cheng, Yuanhui;Guo, Jianing;Huang, Yan;Liao, Zhijian;Xiang, Zhonghua
Ultrastable hydrogen evolution electrocatalyst derived from phosphide postmodified metal-organic frameworks[期刊论文],NANO ENERGY,2017-05-01
-
102. DOI
Yang, Qingqing;Peng, Peng;Xiang, Zhonghua
Covalent organic polymer modified TiO2 nanosheets as highly efficient photocatalysts for hydrogen generation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-04-27
-
103. DOI
Xie,Chengpeng;Huo,Feng;Huang,Yan;Cheng,Yuanhui;Liu,Guangqing;Xiang,Zhonghua
Holey Graphitic Carbon Derived from Covalent Organic Polymers Impregnated with Nonprecious Metals for CO 2 Capture from Natural Gas[期刊论文],Particle and Particle Systems Characterization,2017-02-01
-
104. DOI
Xiang, Zhonghua;Zhu, Lin;Qi, Lei;Yan, Lu;Xue, Yuhua;Wang, Dan;Chen, Jian-Feng;Dai, Liming
Two-Dimensional Fully Conjugated Polymeric Photosensitizers for Advanced Photodynamic Therapy[期刊论文],CHEMISTRY OF MATERIALS,2016-12-13
-
105. DOI
Lu, Ke;Hu, Ziyu;Xiang, Zhonghua;Ma, Jizhen;Song, Bin;Zhang, Jintao;Ma, Houyi
Cation Intercalation in Manganese Oxide Nanosheets: Effects on Lithium and Sodium Storage[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2016-08-22
-
106. DOI
Xiang, Zhonghua;Dai, Quanbin;Chen, Jian-Feng;Dai, Liming
Edge Functionalization of Graphene and Two-Dimensional Covalent Organic Polymers for Energy Conversion and Storage[期刊论文],ADVANCED MATERIALS,2016-08-03
-
107. DOI
Fu, Yu'ang;Huang, Yan;Xiang, Zhonghua;Liu, Guangqing;Cao, Dapeng
Phosphorous-Nitrogen-Codoped Carbon Materials Derived from Metal-Organic Frameworks as Efficient Electrocatalysts for Oxygen Reduction Reactions[期刊论文],EUROPEAN JOURNAL OF INORGANIC CHEMISTRY,2016-05-01
-
108. DOI
Xiang, Zhonghua;Mercado, Rocio;Huck, Johanna M.;Wang, Hui;Guo, Zhanhu;Wang, Wenchuan;Cao, Dapeng;Haranczyk, Maciej;Smit, Berend
Systematic Tuning and Multifunctionalization of Covalent Organic Polymers for Enhanced Carbon Capture[期刊论文],JOURNAL OF THE AMERICAN CHEMICAL SOCIETY,2015-10-21
-
109. DOI
向中华
面向能源转化与存储应用的共价多孔骨架材料的可控制备[会议论文],2015年中国化工学会年会论文集,2015-10-17
-
110. DOI
Wan Gang;Fu Yu'ang;Guo Jianing;Xiang Zhonghua
Photoelectronic Porous Covalent Organic Materials: Research Progress and Perspective[期刊论文],ACTA CHIMICA SINICA,2015-06-15
-
111. DOI
Xiang, Zhonghua;Cao, Dapeng;Shao, Xiaohong;Wang, Wenchuan;Zhang, Jianwei;Wu, Weize
Facile preparation of high-capacity hydrogen storage metal-organic frameworks : A combination of microwave-assisted solvothermal synthesis and supercritical activation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2010-05-15
[+][-]
2029年
-
1. DOI
赵林杰,蔡奇峰,毛宝光,毛俊杰,董慧,向中华,朱嘉,Rajib Paul,王丹,龙永德,曲良体,鄢日清,Liming Dai,胡传刚
A universal approach to dual-metal-atom catalytic sites confined in carbon dots for various target reactions[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2023-10-24
-
2. DOI
Han, Linkai;Yu, Haifeng;Xiang, Zhonghua
Asymmetric Active Sites for Boosting Oxygen Evolution Reaction[期刊论文],Small,2023-10-11
-
3. DOI
Mi, Chunxia;Yu, Haifeng;Han, Linkai;Zhang, Lirong;Zhai, Lingling;Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Symmetric Electronic Structures of Active Sites to Boost Bifunctional Oxygen Electrocatalysis by MN4+4 Sites Directly from Initial Covalent Organic Polymers[期刊论文],Advanced Functional Materials,2023-09-05
-
4. DOI
Yang, Bolong;Yu, Xiaogang;Hou, Jingkui;Xiang, Zhonghua
Secondary reduction strategy synthesis of Pt–Co nanoparticle catalysts towards boosting the activity of proton exchange membrane fuel cells[期刊论文],Particuology,2023-08-01
-
5. DOI
Yang, Bolong;Yu, Haifeng;Jia, Xudong;Cheng, Qian;Ren, Yaoliang;He, Bing;Xiang, Zhonghua
Atomically Dispersed Isolated Fe-Ce Dual-Metal-Site Catalysts for Proton-Exchange Membrane Fuel Cells[期刊论文],ACS Applied Materials and Interfaces,2023-05-17
-
6. DOI
鲍春竹;向中华
非热解共价有机聚合物基氧还原电催化材料[期刊论文],高等学校化学学报,2023-05-10
-
7. DOI
Li, Xueli;Chen, Tengge;Yang, Bolong;Xiang, Zhonghua
Fundamental Understanding of Electronic Structure in FeN4 Site on Electrocatalytic Activity via dz2-Orbital-Driven Charge Tuning for Acidic Oxygen Reduction[期刊论文],Angewandte Chemie - International Edition,2023-04-11
-
8. DOI
Yang, Bolong;Han, Qing;Han, Linkai;Leng, Yiming;O'Carroll, Thomas;Yang, Xiaoxuan;Wu, Gang;Xiang, Zhonghua
Porous Covalent Organic Polymer Coordinated Single Co Site Nanofibers for Efficient Oxygen-Reduction Cathodes in Polymer Electrolyte Fuel Cells[期刊论文],Advanced Materials,2023-01-05
-
9. DOI
Yang, Bolong;Li, Bingjie;Xiang, Zhonghua
Advanced MOF-based electrode materials for supercapacitors and electrocatalytic oxygen reduction[期刊论文],Nano Research,2023-01-01
-
10. DOI
Guo, Bingran;Guo, Jianing;Yang, Wenlu;Tian, Xiyao;Wang, Xi;Xiang, Zhonghua;Wu, Mingxing
Highly dispersed iron/nickel dual-sites in hierarchical porous carbon materials as high-performance bifunctional oxygen electrocatalysts for Zn-air batteries[期刊论文],Renewable Energy,2022-12-01
-
11. DOI
韩清;向中华
质子交换膜燃料电池阴极梯度催化层的数值模拟[期刊论文],化学反应工程与工艺,2022-10-25
-
12. DOI
Leng, Yiming;Yang, Bolong;Zhao, Yun;Xiang, Zhonghua
Fluorinated bimetallic nanoparticles decorated carbon nanofibers as highly active and durable oxygen electrocatalyst for fuel cells[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-10-01
-
13. DOI
Wang, Qian;Meng, Zhu;Li, Juntao;Peng, Shuming;Xiang, Zhonghua
High retention volume covalent organic polymer for xenon capture: Dynamic separation of Xe and Kr[期刊论文],Green Energy and Environment,2022-10-01
-
14. DOI
Yang, Bolong;Li, Xueli;Cheng, Qian;Jia, Xudong;Liu, Yujia;Xiang, Zhonghua
A highly efficient axial coordinated CoN5 electrocatalyst via pyrolysis-free strategy for alkaline polymer electrolyte fuel cells[期刊论文],NANO ENERGY,2022-10-01
-
15. DOI
Wang, Yi-Fei;Xiang, Heng-Yang;Zhou, Yi-Hui;Li, Xue-Li;Wang, Run;Xu, Bo;Liu, Jun;Li, Wei-Jin;Xiang, Zhong-Hua;Zeng, Hai-Bo
Perovskite Light Emitting Diodes Using Covalent Organic Polymers as Hole Injection Layers[期刊论文],Faguang Xuebao/Chinese Journal of Luminescence,2022-10-01
-
16. DOI
Cheng, Qian;Yang, Bolong;Wu, Wenyi;Xiang, Zhonghua
S-doped Fe-N-C as Catalysts for Highly Reactive Oxygen Reduction Reactions[期刊论文],Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities,2022-09-10
-
17. DOI
Li, Xueli;Liu, Qingbin;Yang, Bolong;Liao, Zhijian;Yan, Wensheng;Xiang, Zhonghua
An Initial Covalent Organic Polymer with Closed-F Edges Directly for Proton-Exchange-Membrane Fuel Cells[期刊论文],ADVANCED MATERIALS,2022-09-01
-
18. DOI
Zhao, Yun;Yu, Xiaogang;Wen, Xin;Luo, Yong;Xiang, Zhonghua;Chen, Jian-feng
HiGee strategy towards large-scale synthesis of soluble covalent organic frameworks[期刊论文],AIChE Journal,2022-08-25
-
19. DOI
谢宇新,余小刚,靳昭行,刘庆彬,赵云,向中华
Dual-template strategy synthesis of hierarchically porous electrocatalysts for oxygen reduction reaction[期刊论文],Advanced Sensor and Energy Materials,2022-06-06
-
20. DOI
Li, Xueli;Liu, Di;Liu, Qingbin;Xiang, Zhonghua
A Pyrolysis-Free Method Toward Large-Scale Synthesis of Ultra-Highly Efficient Bifunctional Oxygen Electrocatalyst for Zinc-Air Flow Batteries[期刊论文],Small,2022-05-26
-
21. DOI
Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Dithiine Bridged Phthalocyanine-Based Covalent Organic Frameworks for Highly Efficient Oxygen Reduction Reaction[期刊论文],Journal of Physical Chemistry C,2022-03-03
-
22. DOI
Cui, Juan;Leng, Yiming;Xiang, Zhonghua
FeNi co-doped electrocatalyst synthesized via binary ligand strategy as a bifunctional catalyst for Zn-air flow battery[期刊论文],Chemical Engineering Science,2022-01-16
-
23. DOI
Jiang, Minghang;Han, Linkai;Peng, Peng;Hu, Yi;Xiong, Yan;Mi, Chunxia;Tie, Zuoxiu;Xiang, Zhonghua;Jin, Zhong
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High-Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2022-01-12
-
24. DOI
李雪丽,向中华
Identifying the impact of the covalent-bonded carbon matrix to FeN4 sites for acidic oxygen reduction[期刊论文],Nature Communications,2022-01-06
-
25. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
26. DOI
Liu, Qingbin;Xu, Li;Liu, Shizhen;Xiang, Zhonghua
Binary ligand strategy toward interweaved encapsulation-nanotubes structured electrocatalyst for proton exchange membrane fuel cell[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-01-01
-
27. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
28. DOI
MInghang Jiang,Linkai Han,Peng Peng,Yi Hu,Yan Xiong,Chunxia Mi,向中华,金钟
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High- Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2021-12-21
-
29. DOI
Wu, Hao;Han, Linkai;Wang, Ni;Yun, Ling-Xia;Xiang, Zhonghua;Wang, Jie-Xin
Sodium laurate-assisted CeO2 nanoparticles as highly efficient and recyclable catalysts for cyanosilylation reaction[期刊论文],Applied Catalysis A: General,2021-11-25
-
30. DOI
Liu, Yaoyao;Yu, Haifeng;Shi, Chong;Xiang, Zhonghua
Localized electron density modulation in conjugated polymer nanosheets for boosting photocatalytic H-2 evolution[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2021-09-21
-
31. DOI
Zang, Ying;Mi, Chunxia;Wang, Rui;Chen, Hong;Peng, Peng;Xiang, Zhonghua;Zang, Shuang-Quan;Mak, Thomas C. W.
Pyrolysis-Free Synthesized Catalyst towards Acidic Oxygen Reduction by Deprotonation[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2021-09-13
-
32. DOI
Yang, Bolong;Han, Qing;Xiang, Zhonghua
Progress of membrane electrode structure and its design for proton exchange membrane fuel cell[期刊论文],Huagong Jinzhan/Chemical Industry and Engineering Progress,2021-09-05
-
33. DOI
Liu, Changfei;Liu, Yaoyao;Xiang, Zhonghua;Liu, Dahuan;Yang, Qingyuan
Bimetallic MOF-Derived Sulfides with Heterojunction Interfaces Synthesized for Photocatalytic Hydrogen Evolution[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2021-08-04
-
34. DOI
Liu, Yaoyao;Li, Bingjie;Xiang, Zhonghua
Pathways towards Boosting Solar-Driven Hydrogen Evolution of Conjugated Polymers[期刊论文],SMALL,2021-08-01
-
35. DOI
程元徽,周圣杰,王睿,高霞,张彦梅,向中华
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
36. DOI
Cheng, Yuanhui;Zhou, Shengjie;Wang, Rui;Gao, Xia;Zhang, Yanmei;Xiang, Zhonghua
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
37. DOI
Guo, Jianing;Li, Bingjie;Zhang, Qiyu;Liu, Qingtao;Wang, Zelin;Zhao, Yufei;Shui, Jianglan;Xiang, Zhonghua
Highly Accessible Atomically Dispersed Fe-N-x Sites Electrocatalyst for Proton-Exchange Membrane Fuel Cell[期刊论文],ADVANCED SCIENCE,2021-03-01
-
38. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xie, Lianhua;Liu, Yujia;Xiang, Zhonghua
A new steric tetra-imidazole for facile synthesis of high loading atomically dispersed FeN4 electrocatalysts[期刊论文],Nano Energy,2021-02-01
-
39. DOI
Guo, Jianing;Xiang, Zhonghua
Progress of metal macrocyclic compound-based oxygen reduction electrocatalysts[期刊论文],Huagong Xuebao/CIESC Journal,2021-01-01
-
40. DOI
向中华
非碳化共价有机聚合物材料的设计与能源催化[会议论文],第五届全国新能源与化工新材料学术会议--2020全国能量转换与存储材料学术研讨会摘要集,2020-10-15
-
41. DOI
赵云,张敏,文鑫,向中华
Microfluidic interface boosted synthesis of covalent organic polymer capsule[期刊论文],Green Chemical Engineering,2020-09-21
-
42. DOI
Gan, Jie;Hao, Chunyu;Guo, Jianing;Chen, Wenyao;Cao, Yueqiang;Luo, Wei;Huang, Zikun;Xiang, Zhonghua;Duan, Xuezhi;Zhou, Xinggui
How PM2.5 Affects Pt-Catalyzed Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-06-29
-
43. DOI
Zhao, Yun;Xiang, Zhonghua
Progress of microfluidic synthesis of metal/covalent organic frameworks[期刊论文],Huagong Xuebao/CIESC Journal,2020-06-01
-
44. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Pyrolysis-free approach towards synthesis of oxygen reduction electrocatalysts[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2020-05-15
-
45. DOI
郭佳宁,Huo Feng,程元徽,向中华
PAF-1 as oxygen tank to in-situ synthesize edge-exposed O-MoS2 for highly efficient hydrogen evolution[期刊论文],CATALYSIS TODAY,2020-05-01
-
46. DOI
Guo, Jianing;Huo, Feng;Cheng, Yuanhui;Xiang, Zhonghua
PAF-1 as oxygen tank to in -situ synthesize edge -exposed O-MoS 2 for highly efficient hydrogen evolution[会议论文],CATALYSIS TODAY,2020-05-01
-
47. DOI
赵云;向中华
微流控制备金属/共价有机框架功能材料研究进展[期刊论文],化工学报,2020-04-01
-
48. DOI
Li, Yang;Peng, Peng;Liao, Zhijian;Huo, Feng;Liu, Yujia;Shao, Xiaohong;Xiang, Zhonghua
Nitro-Group-Doped Fully Conjugated 2D Covalent Organic Polymers for Enhanced Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-03-09
-
49. DOI
Zhang, Weichao;Liu, Yujia;Luo, Yong;Xie, Chengpeng;Xiang, Zhonghua;Chen, Jian-Feng
HiGee Strategy toward Rapid Mass Production of Porous Covalent Organic Polymers with Superior Methane Deliverable Capacity[期刊论文],ADVANCED FUNCTIONAL MATERIALS,2020-03-01
-
50. DOI
Xia Zhenhai,向中华
Editorial: Catalysts for Clean Energy Conversion and Storage.[期刊论文],Frontiers in Materials,2020-02-21
-
51. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],FRONTIERS IN MATERIALS,2020-02-21
-
52. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],Frontiers in Materials,2020-02-21
-
53. DOI
Xu, Baolin;Qi, Shihan;Jin, Mengmeng;Cai, Xiaoyi;Lai, Linfei;Sun, Zhouting;Han, Xiaogang;Lin, Zifeng;Shao, Hui;Peng, Peng;Xiang, Zhonghua;ten Elshof, Johan E.;Tan, Rou;Liu, Chen;Zhang, Zhaoxi;Duan, Xiaochuan;Ma, Jianmin
2020 roadmap on two-dimensional materials for energy storage and conversion[期刊论文],CHINESE CHEMICAL LETTERS,2019-12-01
-
54. DOI
Jin, Liming;Guo, Xin;Gong, Ruiqi;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Zheng, Jim P.
Target-oriented electrode constructions toward ultra-fast and ultra-stable all-graphene lithium ion capacitors[期刊论文],ENERGY STORAGE MATERIALS,2019-12-01
-
55. DOI
Liu, Yaoyao;Xiang, Zhonghua
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2019-11-06
-
56. DOI
刘瑶瑶,向中华
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater.[期刊论文],ACS Applied Materials & Interfaces,2019-10-15
-
57. DOI
李阳,彭鹏,Huo Feng,Shao Xiaohong,向中华
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],Frontiers in Materials,2019-10-04
-
58. DOI
Li, Yang;Peng, Peng;Huo, Feng;Shao, Xiaohong;Xiang, Zhonghua
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],FRONTIERS IN MATERIALS,2019-10-04
-
59. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Soluble Covalent Organic Polymer for the Flexible Electrode of Supercapacitors[期刊论文],FRONTIERS IN MATERIALS,2019-10-02
-
60. DOI
Li, Yan;Chen, Junxiang;Huang, Junheng;Hou, Yang;Lei, Lecheng;Lin, Wanzhen;Lian, Yaping;Xiang Zhonghua;Yang, Huang-Hao;Wen, Zhenhai
Interfacial engineering of Ru-S-Sb/antimonene electrocatalysts for highly efficient electrolytic hydrogen generation in neutral electrolyte[期刊论文],CHEMICAL COMMUNICATIONS,2019-09-18
-
61. DOI
Cheng, Yuanhui;Guo, Yinjian;Zhang, Ningyuan;Tao, Shuo;Liao, Zhijian;Wang, Yalan;Xiang, Zhonghua
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],NANO ENERGY,2019-09-01
-
62. DOI
Cheng, Yuanhui;Zhang, Ningyuan;Wang, Qiuli;Guo, Yinjian;Tao, Shuo;Liao, Zhijian;Jiang, Peng;Xiang, Zhonghua
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],NANO ENERGY,2019-09-01
-
63. DOI
程元徽,郭银建,张宁远,陶硕,廖之建,王雅岚,向中华
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],Nano Energy,2019-07-10
-
64. DOI
程元徽,张宁远,王秋丽,郭银建,陶硕,廖之剑,姜鹏,向中华
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],Nano Energy,2019-06-13
-
65. DOI
Cheng, Yuanhui;Wang, Yalan;Wang, Qiuli;Liao, Zhijian;Zhang, Ningyuan;Guo, Yinjian;Xiang, Zhonghua
Hierarchically porous metal-free carbon with record high mass activity for oxygen reduction and Zn-air batteries[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-28
-
66. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: a 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-14
-
67. DOI
Liao, Zhijian;Wang, Yalan;Wang, Qiuli;Cheng, Yuanhui;Xiang, Zhonghua
Bimetal-phthalocyanine based covalent organic polymers for highly efficient oxygen electrode[期刊论文],APPLIED CATALYSIS B-ENVIRONMENTAL,2019-04-01
-
68. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xiang, Zhonghua
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
69. DOI
林欣欣,彭鹏,郭佳宁,向中华
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
70. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],Nanoscale,2019-01-07
-
71. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],NANOSCALE,2019-01-07
-
72. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],J. Energy Chem.,2019-01-01
-
73. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: A 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],J. Mater. Chem. A,2019-01-01
-
74. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2019-01-01
-
75. DOI
Zhao, Yun;Xiang, Zhonghua
Synthesis of zeolitic imidazolate frameworks in droplet microfluidic system[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2018-12-01
-
76. DOI
Shi, Lei;Qi, Ziyuan;Peng, Peng;Guo, Jianing;Wan, Gang;Cao, Dapeng;Xiang, Zhonghua
Pyrene-Based Covalent Organic Polymers for Enhanced Photovoltaic Performance and Solar-Driven Hydrogen Production[期刊论文],ACS APPLIED ENERGY MATERIALS,2018-12-01
-
77. DOI
赵云,廖芝建,向中华
Microfluidics for synthesis and morphology control of hierarchical porous covalent organic polymer monolith[期刊论文],CHEMICAL ENGINEERING SCIENCE,2018-10-19
-
78. DOI
赵云;向中华
液滴式微流控芯片制备沸石咪唑骨架材料[期刊论文],科学通报,2018-09-27
-
79. DOI
Guo, Jianing;Lin, Chun-Yu;Xia, Zhenhai;Xiang, Zhonghua
A Pyrolysis-Free Covalent Organic Polymer for Oxygen Reduction[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2018-09-17
-
80. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
81. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
82. DOI
Xiang, Zhonghua
Covalent organic polymers for electrocatalysis[会议论文],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2018-08-19
-
83. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
84. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
85. DOI
张伟超,程元徽,郭春帅,谢程鹏,向中华
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],Industrial & Engineering Chemistry Research,2018-07-19
-
86. DOI
Yang, Liu;Cheng, Daojian;Zeng, Xiaofei;Wan, Xin;Shui, Jianglan;Xiang, Zhonghua;Cao, Dapeng
Unveiling the high-activity origin of single-atom iron catalysts for oxygen reduction reaction[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2018-06-26
-
87. DOI
Shi, Lei;Peng, Peng;Xiang, Zhonghua
Controlled synthesis of porous nitrogen-doped carbon nanoshells for highly efficient oxygen reduction[期刊论文],REACTION CHEMISTRY & ENGINEERING,2018-06-01
-
88. DOI
Xu, Jing;Huo, Feng;Zhao, Yufei;Liu, Yaoyao;Yang, Qingqing;Cheng, Yuanhui;Min, Shixiong;Jin, Zhiliang;Xiang, Zhonghua
In-situ La doped Co3O4 as highly efficient photocatalyst for solar hydrogen generation[期刊论文],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018-05-03
-
89. DOI
Ma, Jizhen;Xiang, Zhonghua;Zhang, Jintao
Three-dimensional nitrogen and phosphorous Co-doped graphene aerogel electrocatalysts for efficient oxygen reduction reaction[期刊论文],SCIENCE CHINA-CHEMISTRY,2018-05-01
-
90. DOI
Cheng, Yuanhui;Li, Dongming;Shi, Lei;Xiang, Zhonghua
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],NANO ENERGY,2018-05-01
-
91. DOI
Zhou, Zhuohang;Peng, Peng;Xiang, Zhonghua
N-rich covalent organic polymer in situ modified TiO2 for highly efficient photocatalytic hydrogen evolution[期刊论文],SCIENCE BULLETIN,2018-03-30
-
92. DOI
程元徽,李东明,石磊,向中华
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],Nano Energy,2018-03-07
-
93. DOI
Meng, Zhu;Li, Juntao;Huo, Feng;Huang, Yan;Xiang, Zhonghua
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-12-31
-
94. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
95. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
96. DOI
孟竹,黄燕,向中华,Juntao Li,Feng Huo
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],Chemical Engineering Science,2017-09-08
-
97. DOI
黄燕;李鼎;孟竹;周卓航;郭佳宁;程元徽;向中华
共价有机聚合物的合成及在燃料电池阴极氧还原反应中的应用[期刊论文],中国材料进展,2017-09-05
-
98. DOI
Guo, Jianing;Cheng, Yuanhui;Xiang, Zhonghua
Confined-Space-Assisted Preparation of Fe3O4-Nanoparticle-Modified Fe-N-C Catalysts Derived from a Covalent Organic Polymer for Oxygen Reduction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2017-09-01
-
99. DOI
Guo, Jianing;Li, Yang;Cheng, Yuanhui;Dai, Liming;Xiang, Zhonghua
Highly Efficient Oxygen Reduction Reaction Electrocatalysts Synthesized under Nanospace Confinement of Metal-Oganic Framework[期刊论文],ACS NANO,2017-08-01
-
100. DOI
Peng, Peng;Zhou, Zhuohang;Guo, Jianing;Xiang, Zhonghua
Well-Defined 2D Covalent Organic Polymers for Energy Electrocatalysis[期刊论文],ACS ENERGY LETTERS,2017-06-01
-
101. DOI
Cheng, Yuanhui;Guo, Jianing;Huang, Yan;Liao, Zhijian;Xiang, Zhonghua
Ultrastable hydrogen evolution electrocatalyst derived from phosphide postmodified metal-organic frameworks[期刊论文],NANO ENERGY,2017-05-01
-
102. DOI
Yang, Qingqing;Peng, Peng;Xiang, Zhonghua
Covalent organic polymer modified TiO2 nanosheets as highly efficient photocatalysts for hydrogen generation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-04-27
-
103. DOI
Xie,Chengpeng;Huo,Feng;Huang,Yan;Cheng,Yuanhui;Liu,Guangqing;Xiang,Zhonghua
Holey Graphitic Carbon Derived from Covalent Organic Polymers Impregnated with Nonprecious Metals for CO 2 Capture from Natural Gas[期刊论文],Particle and Particle Systems Characterization,2017-02-01
-
104. DOI
Xiang, Zhonghua;Zhu, Lin;Qi, Lei;Yan, Lu;Xue, Yuhua;Wang, Dan;Chen, Jian-Feng;Dai, Liming
Two-Dimensional Fully Conjugated Polymeric Photosensitizers for Advanced Photodynamic Therapy[期刊论文],CHEMISTRY OF MATERIALS,2016-12-13
-
105. DOI
Lu, Ke;Hu, Ziyu;Xiang, Zhonghua;Ma, Jizhen;Song, Bin;Zhang, Jintao;Ma, Houyi
Cation Intercalation in Manganese Oxide Nanosheets: Effects on Lithium and Sodium Storage[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2016-08-22
-
106. DOI
Xiang, Zhonghua;Dai, Quanbin;Chen, Jian-Feng;Dai, Liming
Edge Functionalization of Graphene and Two-Dimensional Covalent Organic Polymers for Energy Conversion and Storage[期刊论文],ADVANCED MATERIALS,2016-08-03
-
107. DOI
Fu, Yu'ang;Huang, Yan;Xiang, Zhonghua;Liu, Guangqing;Cao, Dapeng
Phosphorous-Nitrogen-Codoped Carbon Materials Derived from Metal-Organic Frameworks as Efficient Electrocatalysts for Oxygen Reduction Reactions[期刊论文],EUROPEAN JOURNAL OF INORGANIC CHEMISTRY,2016-05-01
-
108. DOI
Xiang, Zhonghua;Mercado, Rocio;Huck, Johanna M.;Wang, Hui;Guo, Zhanhu;Wang, Wenchuan;Cao, Dapeng;Haranczyk, Maciej;Smit, Berend
Systematic Tuning and Multifunctionalization of Covalent Organic Polymers for Enhanced Carbon Capture[期刊论文],JOURNAL OF THE AMERICAN CHEMICAL SOCIETY,2015-10-21
-
109. DOI
向中华
面向能源转化与存储应用的共价多孔骨架材料的可控制备[会议论文],2015年中国化工学会年会论文集,2015-10-17
-
110. DOI
Wan Gang;Fu Yu'ang;Guo Jianing;Xiang Zhonghua
Photoelectronic Porous Covalent Organic Materials: Research Progress and Perspective[期刊论文],ACTA CHIMICA SINICA,2015-06-15
-
111. DOI
Xiang, Zhonghua;Cao, Dapeng;Shao, Xiaohong;Wang, Wenchuan;Zhang, Jianwei;Wu, Weize
Facile preparation of high-capacity hydrogen storage metal-organic frameworks : A combination of microwave-assisted solvothermal synthesis and supercritical activation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2010-05-15
[+][-]
2028年
-
1. DOI
赵林杰,蔡奇峰,毛宝光,毛俊杰,董慧,向中华,朱嘉,Rajib Paul,王丹,龙永德,曲良体,鄢日清,Liming Dai,胡传刚
A universal approach to dual-metal-atom catalytic sites confined in carbon dots for various target reactions[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2023-10-24
-
2. DOI
Han, Linkai;Yu, Haifeng;Xiang, Zhonghua
Asymmetric Active Sites for Boosting Oxygen Evolution Reaction[期刊论文],Small,2023-10-11
-
3. DOI
Mi, Chunxia;Yu, Haifeng;Han, Linkai;Zhang, Lirong;Zhai, Lingling;Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Symmetric Electronic Structures of Active Sites to Boost Bifunctional Oxygen Electrocatalysis by MN4+4 Sites Directly from Initial Covalent Organic Polymers[期刊论文],Advanced Functional Materials,2023-09-05
-
4. DOI
Yang, Bolong;Yu, Xiaogang;Hou, Jingkui;Xiang, Zhonghua
Secondary reduction strategy synthesis of Pt–Co nanoparticle catalysts towards boosting the activity of proton exchange membrane fuel cells[期刊论文],Particuology,2023-08-01
-
5. DOI
Yang, Bolong;Yu, Haifeng;Jia, Xudong;Cheng, Qian;Ren, Yaoliang;He, Bing;Xiang, Zhonghua
Atomically Dispersed Isolated Fe-Ce Dual-Metal-Site Catalysts for Proton-Exchange Membrane Fuel Cells[期刊论文],ACS Applied Materials and Interfaces,2023-05-17
-
6. DOI
鲍春竹;向中华
非热解共价有机聚合物基氧还原电催化材料[期刊论文],高等学校化学学报,2023-05-10
-
7. DOI
Li, Xueli;Chen, Tengge;Yang, Bolong;Xiang, Zhonghua
Fundamental Understanding of Electronic Structure in FeN4 Site on Electrocatalytic Activity via dz2-Orbital-Driven Charge Tuning for Acidic Oxygen Reduction[期刊论文],Angewandte Chemie - International Edition,2023-04-11
-
8. DOI
Yang, Bolong;Han, Qing;Han, Linkai;Leng, Yiming;O'Carroll, Thomas;Yang, Xiaoxuan;Wu, Gang;Xiang, Zhonghua
Porous Covalent Organic Polymer Coordinated Single Co Site Nanofibers for Efficient Oxygen-Reduction Cathodes in Polymer Electrolyte Fuel Cells[期刊论文],Advanced Materials,2023-01-05
-
9. DOI
Yang, Bolong;Li, Bingjie;Xiang, Zhonghua
Advanced MOF-based electrode materials for supercapacitors and electrocatalytic oxygen reduction[期刊论文],Nano Research,2023-01-01
-
10. DOI
Guo, Bingran;Guo, Jianing;Yang, Wenlu;Tian, Xiyao;Wang, Xi;Xiang, Zhonghua;Wu, Mingxing
Highly dispersed iron/nickel dual-sites in hierarchical porous carbon materials as high-performance bifunctional oxygen electrocatalysts for Zn-air batteries[期刊论文],Renewable Energy,2022-12-01
-
11. DOI
韩清;向中华
质子交换膜燃料电池阴极梯度催化层的数值模拟[期刊论文],化学反应工程与工艺,2022-10-25
-
12. DOI
Leng, Yiming;Yang, Bolong;Zhao, Yun;Xiang, Zhonghua
Fluorinated bimetallic nanoparticles decorated carbon nanofibers as highly active and durable oxygen electrocatalyst for fuel cells[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-10-01
-
13. DOI
Wang, Qian;Meng, Zhu;Li, Juntao;Peng, Shuming;Xiang, Zhonghua
High retention volume covalent organic polymer for xenon capture: Dynamic separation of Xe and Kr[期刊论文],Green Energy and Environment,2022-10-01
-
14. DOI
Yang, Bolong;Li, Xueli;Cheng, Qian;Jia, Xudong;Liu, Yujia;Xiang, Zhonghua
A highly efficient axial coordinated CoN5 electrocatalyst via pyrolysis-free strategy for alkaline polymer electrolyte fuel cells[期刊论文],NANO ENERGY,2022-10-01
-
15. DOI
Wang, Yi-Fei;Xiang, Heng-Yang;Zhou, Yi-Hui;Li, Xue-Li;Wang, Run;Xu, Bo;Liu, Jun;Li, Wei-Jin;Xiang, Zhong-Hua;Zeng, Hai-Bo
Perovskite Light Emitting Diodes Using Covalent Organic Polymers as Hole Injection Layers[期刊论文],Faguang Xuebao/Chinese Journal of Luminescence,2022-10-01
-
16. DOI
Cheng, Qian;Yang, Bolong;Wu, Wenyi;Xiang, Zhonghua
S-doped Fe-N-C as Catalysts for Highly Reactive Oxygen Reduction Reactions[期刊论文],Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities,2022-09-10
-
17. DOI
Li, Xueli;Liu, Qingbin;Yang, Bolong;Liao, Zhijian;Yan, Wensheng;Xiang, Zhonghua
An Initial Covalent Organic Polymer with Closed-F Edges Directly for Proton-Exchange-Membrane Fuel Cells[期刊论文],ADVANCED MATERIALS,2022-09-01
-
18. DOI
Zhao, Yun;Yu, Xiaogang;Wen, Xin;Luo, Yong;Xiang, Zhonghua;Chen, Jian-feng
HiGee strategy towards large-scale synthesis of soluble covalent organic frameworks[期刊论文],AIChE Journal,2022-08-25
-
19. DOI
谢宇新,余小刚,靳昭行,刘庆彬,赵云,向中华
Dual-template strategy synthesis of hierarchically porous electrocatalysts for oxygen reduction reaction[期刊论文],Advanced Sensor and Energy Materials,2022-06-06
-
20. DOI
Li, Xueli;Liu, Di;Liu, Qingbin;Xiang, Zhonghua
A Pyrolysis-Free Method Toward Large-Scale Synthesis of Ultra-Highly Efficient Bifunctional Oxygen Electrocatalyst for Zinc-Air Flow Batteries[期刊论文],Small,2022-05-26
-
21. DOI
Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Dithiine Bridged Phthalocyanine-Based Covalent Organic Frameworks for Highly Efficient Oxygen Reduction Reaction[期刊论文],Journal of Physical Chemistry C,2022-03-03
-
22. DOI
Cui, Juan;Leng, Yiming;Xiang, Zhonghua
FeNi co-doped electrocatalyst synthesized via binary ligand strategy as a bifunctional catalyst for Zn-air flow battery[期刊论文],Chemical Engineering Science,2022-01-16
-
23. DOI
Jiang, Minghang;Han, Linkai;Peng, Peng;Hu, Yi;Xiong, Yan;Mi, Chunxia;Tie, Zuoxiu;Xiang, Zhonghua;Jin, Zhong
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High-Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2022-01-12
-
24. DOI
李雪丽,向中华
Identifying the impact of the covalent-bonded carbon matrix to FeN4 sites for acidic oxygen reduction[期刊论文],Nature Communications,2022-01-06
-
25. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
26. DOI
Liu, Qingbin;Xu, Li;Liu, Shizhen;Xiang, Zhonghua
Binary ligand strategy toward interweaved encapsulation-nanotubes structured electrocatalyst for proton exchange membrane fuel cell[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-01-01
-
27. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
28. DOI
MInghang Jiang,Linkai Han,Peng Peng,Yi Hu,Yan Xiong,Chunxia Mi,向中华,金钟
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High- Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2021-12-21
-
29. DOI
Wu, Hao;Han, Linkai;Wang, Ni;Yun, Ling-Xia;Xiang, Zhonghua;Wang, Jie-Xin
Sodium laurate-assisted CeO2 nanoparticles as highly efficient and recyclable catalysts for cyanosilylation reaction[期刊论文],Applied Catalysis A: General,2021-11-25
-
30. DOI
Liu, Yaoyao;Yu, Haifeng;Shi, Chong;Xiang, Zhonghua
Localized electron density modulation in conjugated polymer nanosheets for boosting photocatalytic H-2 evolution[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2021-09-21
-
31. DOI
Zang, Ying;Mi, Chunxia;Wang, Rui;Chen, Hong;Peng, Peng;Xiang, Zhonghua;Zang, Shuang-Quan;Mak, Thomas C. W.
Pyrolysis-Free Synthesized Catalyst towards Acidic Oxygen Reduction by Deprotonation[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2021-09-13
-
32. DOI
Yang, Bolong;Han, Qing;Xiang, Zhonghua
Progress of membrane electrode structure and its design for proton exchange membrane fuel cell[期刊论文],Huagong Jinzhan/Chemical Industry and Engineering Progress,2021-09-05
-
33. DOI
Liu, Changfei;Liu, Yaoyao;Xiang, Zhonghua;Liu, Dahuan;Yang, Qingyuan
Bimetallic MOF-Derived Sulfides with Heterojunction Interfaces Synthesized for Photocatalytic Hydrogen Evolution[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2021-08-04
-
34. DOI
Liu, Yaoyao;Li, Bingjie;Xiang, Zhonghua
Pathways towards Boosting Solar-Driven Hydrogen Evolution of Conjugated Polymers[期刊论文],SMALL,2021-08-01
-
35. DOI
程元徽,周圣杰,王睿,高霞,张彦梅,向中华
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
36. DOI
Cheng, Yuanhui;Zhou, Shengjie;Wang, Rui;Gao, Xia;Zhang, Yanmei;Xiang, Zhonghua
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
37. DOI
Guo, Jianing;Li, Bingjie;Zhang, Qiyu;Liu, Qingtao;Wang, Zelin;Zhao, Yufei;Shui, Jianglan;Xiang, Zhonghua
Highly Accessible Atomically Dispersed Fe-N-x Sites Electrocatalyst for Proton-Exchange Membrane Fuel Cell[期刊论文],ADVANCED SCIENCE,2021-03-01
-
38. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xie, Lianhua;Liu, Yujia;Xiang, Zhonghua
A new steric tetra-imidazole for facile synthesis of high loading atomically dispersed FeN4 electrocatalysts[期刊论文],Nano Energy,2021-02-01
-
39. DOI
Guo, Jianing;Xiang, Zhonghua
Progress of metal macrocyclic compound-based oxygen reduction electrocatalysts[期刊论文],Huagong Xuebao/CIESC Journal,2021-01-01
-
40. DOI
向中华
非碳化共价有机聚合物材料的设计与能源催化[会议论文],第五届全国新能源与化工新材料学术会议--2020全国能量转换与存储材料学术研讨会摘要集,2020-10-15
-
41. DOI
赵云,张敏,文鑫,向中华
Microfluidic interface boosted synthesis of covalent organic polymer capsule[期刊论文],Green Chemical Engineering,2020-09-21
-
42. DOI
Gan, Jie;Hao, Chunyu;Guo, Jianing;Chen, Wenyao;Cao, Yueqiang;Luo, Wei;Huang, Zikun;Xiang, Zhonghua;Duan, Xuezhi;Zhou, Xinggui
How PM2.5 Affects Pt-Catalyzed Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-06-29
-
43. DOI
Zhao, Yun;Xiang, Zhonghua
Progress of microfluidic synthesis of metal/covalent organic frameworks[期刊论文],Huagong Xuebao/CIESC Journal,2020-06-01
-
44. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Pyrolysis-free approach towards synthesis of oxygen reduction electrocatalysts[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2020-05-15
-
45. DOI
郭佳宁,Huo Feng,程元徽,向中华
PAF-1 as oxygen tank to in-situ synthesize edge-exposed O-MoS2 for highly efficient hydrogen evolution[期刊论文],CATALYSIS TODAY,2020-05-01
-
46. DOI
Guo, Jianing;Huo, Feng;Cheng, Yuanhui;Xiang, Zhonghua
PAF-1 as oxygen tank to in -situ synthesize edge -exposed O-MoS 2 for highly efficient hydrogen evolution[会议论文],CATALYSIS TODAY,2020-05-01
-
47. DOI
赵云;向中华
微流控制备金属/共价有机框架功能材料研究进展[期刊论文],化工学报,2020-04-01
-
48. DOI
Li, Yang;Peng, Peng;Liao, Zhijian;Huo, Feng;Liu, Yujia;Shao, Xiaohong;Xiang, Zhonghua
Nitro-Group-Doped Fully Conjugated 2D Covalent Organic Polymers for Enhanced Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-03-09
-
49. DOI
Zhang, Weichao;Liu, Yujia;Luo, Yong;Xie, Chengpeng;Xiang, Zhonghua;Chen, Jian-Feng
HiGee Strategy toward Rapid Mass Production of Porous Covalent Organic Polymers with Superior Methane Deliverable Capacity[期刊论文],ADVANCED FUNCTIONAL MATERIALS,2020-03-01
-
50. DOI
Xia Zhenhai,向中华
Editorial: Catalysts for Clean Energy Conversion and Storage.[期刊论文],Frontiers in Materials,2020-02-21
-
51. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],FRONTIERS IN MATERIALS,2020-02-21
-
52. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],Frontiers in Materials,2020-02-21
-
53. DOI
Xu, Baolin;Qi, Shihan;Jin, Mengmeng;Cai, Xiaoyi;Lai, Linfei;Sun, Zhouting;Han, Xiaogang;Lin, Zifeng;Shao, Hui;Peng, Peng;Xiang, Zhonghua;ten Elshof, Johan E.;Tan, Rou;Liu, Chen;Zhang, Zhaoxi;Duan, Xiaochuan;Ma, Jianmin
2020 roadmap on two-dimensional materials for energy storage and conversion[期刊论文],CHINESE CHEMICAL LETTERS,2019-12-01
-
54. DOI
Jin, Liming;Guo, Xin;Gong, Ruiqi;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Zheng, Jim P.
Target-oriented electrode constructions toward ultra-fast and ultra-stable all-graphene lithium ion capacitors[期刊论文],ENERGY STORAGE MATERIALS,2019-12-01
-
55. DOI
Liu, Yaoyao;Xiang, Zhonghua
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2019-11-06
-
56. DOI
刘瑶瑶,向中华
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater.[期刊论文],ACS Applied Materials & Interfaces,2019-10-15
-
57. DOI
李阳,彭鹏,Huo Feng,Shao Xiaohong,向中华
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],Frontiers in Materials,2019-10-04
-
58. DOI
Li, Yang;Peng, Peng;Huo, Feng;Shao, Xiaohong;Xiang, Zhonghua
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],FRONTIERS IN MATERIALS,2019-10-04
-
59. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Soluble Covalent Organic Polymer for the Flexible Electrode of Supercapacitors[期刊论文],FRONTIERS IN MATERIALS,2019-10-02
-
60. DOI
Li, Yan;Chen, Junxiang;Huang, Junheng;Hou, Yang;Lei, Lecheng;Lin, Wanzhen;Lian, Yaping;Xiang Zhonghua;Yang, Huang-Hao;Wen, Zhenhai
Interfacial engineering of Ru-S-Sb/antimonene electrocatalysts for highly efficient electrolytic hydrogen generation in neutral electrolyte[期刊论文],CHEMICAL COMMUNICATIONS,2019-09-18
-
61. DOI
Cheng, Yuanhui;Guo, Yinjian;Zhang, Ningyuan;Tao, Shuo;Liao, Zhijian;Wang, Yalan;Xiang, Zhonghua
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],NANO ENERGY,2019-09-01
-
62. DOI
Cheng, Yuanhui;Zhang, Ningyuan;Wang, Qiuli;Guo, Yinjian;Tao, Shuo;Liao, Zhijian;Jiang, Peng;Xiang, Zhonghua
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],NANO ENERGY,2019-09-01
-
63. DOI
程元徽,郭银建,张宁远,陶硕,廖之建,王雅岚,向中华
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],Nano Energy,2019-07-10
-
64. DOI
程元徽,张宁远,王秋丽,郭银建,陶硕,廖之剑,姜鹏,向中华
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],Nano Energy,2019-06-13
-
65. DOI
Cheng, Yuanhui;Wang, Yalan;Wang, Qiuli;Liao, Zhijian;Zhang, Ningyuan;Guo, Yinjian;Xiang, Zhonghua
Hierarchically porous metal-free carbon with record high mass activity for oxygen reduction and Zn-air batteries[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-28
-
66. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: a 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-14
-
67. DOI
Liao, Zhijian;Wang, Yalan;Wang, Qiuli;Cheng, Yuanhui;Xiang, Zhonghua
Bimetal-phthalocyanine based covalent organic polymers for highly efficient oxygen electrode[期刊论文],APPLIED CATALYSIS B-ENVIRONMENTAL,2019-04-01
-
68. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xiang, Zhonghua
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
69. DOI
林欣欣,彭鹏,郭佳宁,向中华
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
70. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],Nanoscale,2019-01-07
-
71. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],NANOSCALE,2019-01-07
-
72. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],J. Energy Chem.,2019-01-01
-
73. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: A 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],J. Mater. Chem. A,2019-01-01
-
74. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2019-01-01
-
75. DOI
Zhao, Yun;Xiang, Zhonghua
Synthesis of zeolitic imidazolate frameworks in droplet microfluidic system[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2018-12-01
-
76. DOI
Shi, Lei;Qi, Ziyuan;Peng, Peng;Guo, Jianing;Wan, Gang;Cao, Dapeng;Xiang, Zhonghua
Pyrene-Based Covalent Organic Polymers for Enhanced Photovoltaic Performance and Solar-Driven Hydrogen Production[期刊论文],ACS APPLIED ENERGY MATERIALS,2018-12-01
-
77. DOI
赵云,廖芝建,向中华
Microfluidics for synthesis and morphology control of hierarchical porous covalent organic polymer monolith[期刊论文],CHEMICAL ENGINEERING SCIENCE,2018-10-19
-
78. DOI
赵云;向中华
液滴式微流控芯片制备沸石咪唑骨架材料[期刊论文],科学通报,2018-09-27
-
79. DOI
Guo, Jianing;Lin, Chun-Yu;Xia, Zhenhai;Xiang, Zhonghua
A Pyrolysis-Free Covalent Organic Polymer for Oxygen Reduction[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2018-09-17
-
80. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
81. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
82. DOI
Xiang, Zhonghua
Covalent organic polymers for electrocatalysis[会议论文],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2018-08-19
-
83. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
84. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
85. DOI
张伟超,程元徽,郭春帅,谢程鹏,向中华
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],Industrial & Engineering Chemistry Research,2018-07-19
-
86. DOI
Yang, Liu;Cheng, Daojian;Zeng, Xiaofei;Wan, Xin;Shui, Jianglan;Xiang, Zhonghua;Cao, Dapeng
Unveiling the high-activity origin of single-atom iron catalysts for oxygen reduction reaction[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2018-06-26
-
87. DOI
Shi, Lei;Peng, Peng;Xiang, Zhonghua
Controlled synthesis of porous nitrogen-doped carbon nanoshells for highly efficient oxygen reduction[期刊论文],REACTION CHEMISTRY & ENGINEERING,2018-06-01
-
88. DOI
Xu, Jing;Huo, Feng;Zhao, Yufei;Liu, Yaoyao;Yang, Qingqing;Cheng, Yuanhui;Min, Shixiong;Jin, Zhiliang;Xiang, Zhonghua
In-situ La doped Co3O4 as highly efficient photocatalyst for solar hydrogen generation[期刊论文],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018-05-03
-
89. DOI
Ma, Jizhen;Xiang, Zhonghua;Zhang, Jintao
Three-dimensional nitrogen and phosphorous Co-doped graphene aerogel electrocatalysts for efficient oxygen reduction reaction[期刊论文],SCIENCE CHINA-CHEMISTRY,2018-05-01
-
90. DOI
Cheng, Yuanhui;Li, Dongming;Shi, Lei;Xiang, Zhonghua
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],NANO ENERGY,2018-05-01
-
91. DOI
Zhou, Zhuohang;Peng, Peng;Xiang, Zhonghua
N-rich covalent organic polymer in situ modified TiO2 for highly efficient photocatalytic hydrogen evolution[期刊论文],SCIENCE BULLETIN,2018-03-30
-
92. DOI
程元徽,李东明,石磊,向中华
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],Nano Energy,2018-03-07
-
93. DOI
Meng, Zhu;Li, Juntao;Huo, Feng;Huang, Yan;Xiang, Zhonghua
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-12-31
-
94. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
95. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
96. DOI
孟竹,黄燕,向中华,Juntao Li,Feng Huo
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],Chemical Engineering Science,2017-09-08
-
97. DOI
黄燕;李鼎;孟竹;周卓航;郭佳宁;程元徽;向中华
共价有机聚合物的合成及在燃料电池阴极氧还原反应中的应用[期刊论文],中国材料进展,2017-09-05
-
98. DOI
Guo, Jianing;Cheng, Yuanhui;Xiang, Zhonghua
Confined-Space-Assisted Preparation of Fe3O4-Nanoparticle-Modified Fe-N-C Catalysts Derived from a Covalent Organic Polymer for Oxygen Reduction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2017-09-01
-
99. DOI
Guo, Jianing;Li, Yang;Cheng, Yuanhui;Dai, Liming;Xiang, Zhonghua
Highly Efficient Oxygen Reduction Reaction Electrocatalysts Synthesized under Nanospace Confinement of Metal-Oganic Framework[期刊论文],ACS NANO,2017-08-01
-
100. DOI
Peng, Peng;Zhou, Zhuohang;Guo, Jianing;Xiang, Zhonghua
Well-Defined 2D Covalent Organic Polymers for Energy Electrocatalysis[期刊论文],ACS ENERGY LETTERS,2017-06-01
-
101. DOI
Cheng, Yuanhui;Guo, Jianing;Huang, Yan;Liao, Zhijian;Xiang, Zhonghua
Ultrastable hydrogen evolution electrocatalyst derived from phosphide postmodified metal-organic frameworks[期刊论文],NANO ENERGY,2017-05-01
-
102. DOI
Yang, Qingqing;Peng, Peng;Xiang, Zhonghua
Covalent organic polymer modified TiO2 nanosheets as highly efficient photocatalysts for hydrogen generation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-04-27
-
103. DOI
Xie,Chengpeng;Huo,Feng;Huang,Yan;Cheng,Yuanhui;Liu,Guangqing;Xiang,Zhonghua
Holey Graphitic Carbon Derived from Covalent Organic Polymers Impregnated with Nonprecious Metals for CO 2 Capture from Natural Gas[期刊论文],Particle and Particle Systems Characterization,2017-02-01
-
104. DOI
Xiang, Zhonghua;Zhu, Lin;Qi, Lei;Yan, Lu;Xue, Yuhua;Wang, Dan;Chen, Jian-Feng;Dai, Liming
Two-Dimensional Fully Conjugated Polymeric Photosensitizers for Advanced Photodynamic Therapy[期刊论文],CHEMISTRY OF MATERIALS,2016-12-13
-
105. DOI
Lu, Ke;Hu, Ziyu;Xiang, Zhonghua;Ma, Jizhen;Song, Bin;Zhang, Jintao;Ma, Houyi
Cation Intercalation in Manganese Oxide Nanosheets: Effects on Lithium and Sodium Storage[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2016-08-22
-
106. DOI
Xiang, Zhonghua;Dai, Quanbin;Chen, Jian-Feng;Dai, Liming
Edge Functionalization of Graphene and Two-Dimensional Covalent Organic Polymers for Energy Conversion and Storage[期刊论文],ADVANCED MATERIALS,2016-08-03
-
107. DOI
Fu, Yu'ang;Huang, Yan;Xiang, Zhonghua;Liu, Guangqing;Cao, Dapeng
Phosphorous-Nitrogen-Codoped Carbon Materials Derived from Metal-Organic Frameworks as Efficient Electrocatalysts for Oxygen Reduction Reactions[期刊论文],EUROPEAN JOURNAL OF INORGANIC CHEMISTRY,2016-05-01
-
108. DOI
Xiang, Zhonghua;Mercado, Rocio;Huck, Johanna M.;Wang, Hui;Guo, Zhanhu;Wang, Wenchuan;Cao, Dapeng;Haranczyk, Maciej;Smit, Berend
Systematic Tuning and Multifunctionalization of Covalent Organic Polymers for Enhanced Carbon Capture[期刊论文],JOURNAL OF THE AMERICAN CHEMICAL SOCIETY,2015-10-21
-
109. DOI
向中华
面向能源转化与存储应用的共价多孔骨架材料的可控制备[会议论文],2015年中国化工学会年会论文集,2015-10-17
-
110. DOI
Wan Gang;Fu Yu'ang;Guo Jianing;Xiang Zhonghua
Photoelectronic Porous Covalent Organic Materials: Research Progress and Perspective[期刊论文],ACTA CHIMICA SINICA,2015-06-15
-
111. DOI
Xiang, Zhonghua;Cao, Dapeng;Shao, Xiaohong;Wang, Wenchuan;Zhang, Jianwei;Wu, Weize
Facile preparation of high-capacity hydrogen storage metal-organic frameworks : A combination of microwave-assisted solvothermal synthesis and supercritical activation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2010-05-15
[+][-]
2027年
-
1. DOI
赵林杰,蔡奇峰,毛宝光,毛俊杰,董慧,向中华,朱嘉,Rajib Paul,王丹,龙永德,曲良体,鄢日清,Liming Dai,胡传刚
A universal approach to dual-metal-atom catalytic sites confined in carbon dots for various target reactions[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2023-10-24
-
2. DOI
Han, Linkai;Yu, Haifeng;Xiang, Zhonghua
Asymmetric Active Sites for Boosting Oxygen Evolution Reaction[期刊论文],Small,2023-10-11
-
3. DOI
Mi, Chunxia;Yu, Haifeng;Han, Linkai;Zhang, Lirong;Zhai, Lingling;Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Symmetric Electronic Structures of Active Sites to Boost Bifunctional Oxygen Electrocatalysis by MN4+4 Sites Directly from Initial Covalent Organic Polymers[期刊论文],Advanced Functional Materials,2023-09-05
-
4. DOI
Yang, Bolong;Yu, Xiaogang;Hou, Jingkui;Xiang, Zhonghua
Secondary reduction strategy synthesis of Pt–Co nanoparticle catalysts towards boosting the activity of proton exchange membrane fuel cells[期刊论文],Particuology,2023-08-01
-
5. DOI
Yang, Bolong;Yu, Haifeng;Jia, Xudong;Cheng, Qian;Ren, Yaoliang;He, Bing;Xiang, Zhonghua
Atomically Dispersed Isolated Fe-Ce Dual-Metal-Site Catalysts for Proton-Exchange Membrane Fuel Cells[期刊论文],ACS Applied Materials and Interfaces,2023-05-17
-
6. DOI
鲍春竹;向中华
非热解共价有机聚合物基氧还原电催化材料[期刊论文],高等学校化学学报,2023-05-10
-
7. DOI
Li, Xueli;Chen, Tengge;Yang, Bolong;Xiang, Zhonghua
Fundamental Understanding of Electronic Structure in FeN4 Site on Electrocatalytic Activity via dz2-Orbital-Driven Charge Tuning for Acidic Oxygen Reduction[期刊论文],Angewandte Chemie - International Edition,2023-04-11
-
8. DOI
Yang, Bolong;Han, Qing;Han, Linkai;Leng, Yiming;O'Carroll, Thomas;Yang, Xiaoxuan;Wu, Gang;Xiang, Zhonghua
Porous Covalent Organic Polymer Coordinated Single Co Site Nanofibers for Efficient Oxygen-Reduction Cathodes in Polymer Electrolyte Fuel Cells[期刊论文],Advanced Materials,2023-01-05
-
9. DOI
Yang, Bolong;Li, Bingjie;Xiang, Zhonghua
Advanced MOF-based electrode materials for supercapacitors and electrocatalytic oxygen reduction[期刊论文],Nano Research,2023-01-01
-
10. DOI
Guo, Bingran;Guo, Jianing;Yang, Wenlu;Tian, Xiyao;Wang, Xi;Xiang, Zhonghua;Wu, Mingxing
Highly dispersed iron/nickel dual-sites in hierarchical porous carbon materials as high-performance bifunctional oxygen electrocatalysts for Zn-air batteries[期刊论文],Renewable Energy,2022-12-01
-
11. DOI
韩清;向中华
质子交换膜燃料电池阴极梯度催化层的数值模拟[期刊论文],化学反应工程与工艺,2022-10-25
-
12. DOI
Leng, Yiming;Yang, Bolong;Zhao, Yun;Xiang, Zhonghua
Fluorinated bimetallic nanoparticles decorated carbon nanofibers as highly active and durable oxygen electrocatalyst for fuel cells[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-10-01
-
13. DOI
Wang, Qian;Meng, Zhu;Li, Juntao;Peng, Shuming;Xiang, Zhonghua
High retention volume covalent organic polymer for xenon capture: Dynamic separation of Xe and Kr[期刊论文],Green Energy and Environment,2022-10-01
-
14. DOI
Yang, Bolong;Li, Xueli;Cheng, Qian;Jia, Xudong;Liu, Yujia;Xiang, Zhonghua
A highly efficient axial coordinated CoN5 electrocatalyst via pyrolysis-free strategy for alkaline polymer electrolyte fuel cells[期刊论文],NANO ENERGY,2022-10-01
-
15. DOI
Wang, Yi-Fei;Xiang, Heng-Yang;Zhou, Yi-Hui;Li, Xue-Li;Wang, Run;Xu, Bo;Liu, Jun;Li, Wei-Jin;Xiang, Zhong-Hua;Zeng, Hai-Bo
Perovskite Light Emitting Diodes Using Covalent Organic Polymers as Hole Injection Layers[期刊论文],Faguang Xuebao/Chinese Journal of Luminescence,2022-10-01
-
16. DOI
Cheng, Qian;Yang, Bolong;Wu, Wenyi;Xiang, Zhonghua
S-doped Fe-N-C as Catalysts for Highly Reactive Oxygen Reduction Reactions[期刊论文],Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities,2022-09-10
-
17. DOI
Li, Xueli;Liu, Qingbin;Yang, Bolong;Liao, Zhijian;Yan, Wensheng;Xiang, Zhonghua
An Initial Covalent Organic Polymer with Closed-F Edges Directly for Proton-Exchange-Membrane Fuel Cells[期刊论文],ADVANCED MATERIALS,2022-09-01
-
18. DOI
Zhao, Yun;Yu, Xiaogang;Wen, Xin;Luo, Yong;Xiang, Zhonghua;Chen, Jian-feng
HiGee strategy towards large-scale synthesis of soluble covalent organic frameworks[期刊论文],AIChE Journal,2022-08-25
-
19. DOI
谢宇新,余小刚,靳昭行,刘庆彬,赵云,向中华
Dual-template strategy synthesis of hierarchically porous electrocatalysts for oxygen reduction reaction[期刊论文],Advanced Sensor and Energy Materials,2022-06-06
-
20. DOI
Li, Xueli;Liu, Di;Liu, Qingbin;Xiang, Zhonghua
A Pyrolysis-Free Method Toward Large-Scale Synthesis of Ultra-Highly Efficient Bifunctional Oxygen Electrocatalyst for Zinc-Air Flow Batteries[期刊论文],Small,2022-05-26
-
21. DOI
Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Dithiine Bridged Phthalocyanine-Based Covalent Organic Frameworks for Highly Efficient Oxygen Reduction Reaction[期刊论文],Journal of Physical Chemistry C,2022-03-03
-
22. DOI
Cui, Juan;Leng, Yiming;Xiang, Zhonghua
FeNi co-doped electrocatalyst synthesized via binary ligand strategy as a bifunctional catalyst for Zn-air flow battery[期刊论文],Chemical Engineering Science,2022-01-16
-
23. DOI
Jiang, Minghang;Han, Linkai;Peng, Peng;Hu, Yi;Xiong, Yan;Mi, Chunxia;Tie, Zuoxiu;Xiang, Zhonghua;Jin, Zhong
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High-Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2022-01-12
-
24. DOI
李雪丽,向中华
Identifying the impact of the covalent-bonded carbon matrix to FeN4 sites for acidic oxygen reduction[期刊论文],Nature Communications,2022-01-06
-
25. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
26. DOI
Liu, Qingbin;Xu, Li;Liu, Shizhen;Xiang, Zhonghua
Binary ligand strategy toward interweaved encapsulation-nanotubes structured electrocatalyst for proton exchange membrane fuel cell[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-01-01
-
27. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
28. DOI
MInghang Jiang,Linkai Han,Peng Peng,Yi Hu,Yan Xiong,Chunxia Mi,向中华,金钟
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High- Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2021-12-21
-
29. DOI
Wu, Hao;Han, Linkai;Wang, Ni;Yun, Ling-Xia;Xiang, Zhonghua;Wang, Jie-Xin
Sodium laurate-assisted CeO2 nanoparticles as highly efficient and recyclable catalysts for cyanosilylation reaction[期刊论文],Applied Catalysis A: General,2021-11-25
-
30. DOI
Liu, Yaoyao;Yu, Haifeng;Shi, Chong;Xiang, Zhonghua
Localized electron density modulation in conjugated polymer nanosheets for boosting photocatalytic H-2 evolution[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2021-09-21
-
31. DOI
Zang, Ying;Mi, Chunxia;Wang, Rui;Chen, Hong;Peng, Peng;Xiang, Zhonghua;Zang, Shuang-Quan;Mak, Thomas C. W.
Pyrolysis-Free Synthesized Catalyst towards Acidic Oxygen Reduction by Deprotonation[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2021-09-13
-
32. DOI
Yang, Bolong;Han, Qing;Xiang, Zhonghua
Progress of membrane electrode structure and its design for proton exchange membrane fuel cell[期刊论文],Huagong Jinzhan/Chemical Industry and Engineering Progress,2021-09-05
-
33. DOI
Liu, Changfei;Liu, Yaoyao;Xiang, Zhonghua;Liu, Dahuan;Yang, Qingyuan
Bimetallic MOF-Derived Sulfides with Heterojunction Interfaces Synthesized for Photocatalytic Hydrogen Evolution[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2021-08-04
-
34. DOI
Liu, Yaoyao;Li, Bingjie;Xiang, Zhonghua
Pathways towards Boosting Solar-Driven Hydrogen Evolution of Conjugated Polymers[期刊论文],SMALL,2021-08-01
-
35. DOI
程元徽,周圣杰,王睿,高霞,张彦梅,向中华
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
36. DOI
Cheng, Yuanhui;Zhou, Shengjie;Wang, Rui;Gao, Xia;Zhang, Yanmei;Xiang, Zhonghua
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
37. DOI
Guo, Jianing;Li, Bingjie;Zhang, Qiyu;Liu, Qingtao;Wang, Zelin;Zhao, Yufei;Shui, Jianglan;Xiang, Zhonghua
Highly Accessible Atomically Dispersed Fe-N-x Sites Electrocatalyst for Proton-Exchange Membrane Fuel Cell[期刊论文],ADVANCED SCIENCE,2021-03-01
-
38. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xie, Lianhua;Liu, Yujia;Xiang, Zhonghua
A new steric tetra-imidazole for facile synthesis of high loading atomically dispersed FeN4 electrocatalysts[期刊论文],Nano Energy,2021-02-01
-
39. DOI
Guo, Jianing;Xiang, Zhonghua
Progress of metal macrocyclic compound-based oxygen reduction electrocatalysts[期刊论文],Huagong Xuebao/CIESC Journal,2021-01-01
-
40. DOI
向中华
非碳化共价有机聚合物材料的设计与能源催化[会议论文],第五届全国新能源与化工新材料学术会议--2020全国能量转换与存储材料学术研讨会摘要集,2020-10-15
-
41. DOI
赵云,张敏,文鑫,向中华
Microfluidic interface boosted synthesis of covalent organic polymer capsule[期刊论文],Green Chemical Engineering,2020-09-21
-
42. DOI
Gan, Jie;Hao, Chunyu;Guo, Jianing;Chen, Wenyao;Cao, Yueqiang;Luo, Wei;Huang, Zikun;Xiang, Zhonghua;Duan, Xuezhi;Zhou, Xinggui
How PM2.5 Affects Pt-Catalyzed Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-06-29
-
43. DOI
Zhao, Yun;Xiang, Zhonghua
Progress of microfluidic synthesis of metal/covalent organic frameworks[期刊论文],Huagong Xuebao/CIESC Journal,2020-06-01
-
44. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Pyrolysis-free approach towards synthesis of oxygen reduction electrocatalysts[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2020-05-15
-
45. DOI
郭佳宁,Huo Feng,程元徽,向中华
PAF-1 as oxygen tank to in-situ synthesize edge-exposed O-MoS2 for highly efficient hydrogen evolution[期刊论文],CATALYSIS TODAY,2020-05-01
-
46. DOI
Guo, Jianing;Huo, Feng;Cheng, Yuanhui;Xiang, Zhonghua
PAF-1 as oxygen tank to in -situ synthesize edge -exposed O-MoS 2 for highly efficient hydrogen evolution[会议论文],CATALYSIS TODAY,2020-05-01
-
47. DOI
赵云;向中华
微流控制备金属/共价有机框架功能材料研究进展[期刊论文],化工学报,2020-04-01
-
48. DOI
Li, Yang;Peng, Peng;Liao, Zhijian;Huo, Feng;Liu, Yujia;Shao, Xiaohong;Xiang, Zhonghua
Nitro-Group-Doped Fully Conjugated 2D Covalent Organic Polymers for Enhanced Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-03-09
-
49. DOI
Zhang, Weichao;Liu, Yujia;Luo, Yong;Xie, Chengpeng;Xiang, Zhonghua;Chen, Jian-Feng
HiGee Strategy toward Rapid Mass Production of Porous Covalent Organic Polymers with Superior Methane Deliverable Capacity[期刊论文],ADVANCED FUNCTIONAL MATERIALS,2020-03-01
-
50. DOI
Xia Zhenhai,向中华
Editorial: Catalysts for Clean Energy Conversion and Storage.[期刊论文],Frontiers in Materials,2020-02-21
-
51. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],FRONTIERS IN MATERIALS,2020-02-21
-
52. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],Frontiers in Materials,2020-02-21
-
53. DOI
Xu, Baolin;Qi, Shihan;Jin, Mengmeng;Cai, Xiaoyi;Lai, Linfei;Sun, Zhouting;Han, Xiaogang;Lin, Zifeng;Shao, Hui;Peng, Peng;Xiang, Zhonghua;ten Elshof, Johan E.;Tan, Rou;Liu, Chen;Zhang, Zhaoxi;Duan, Xiaochuan;Ma, Jianmin
2020 roadmap on two-dimensional materials for energy storage and conversion[期刊论文],CHINESE CHEMICAL LETTERS,2019-12-01
-
54. DOI
Jin, Liming;Guo, Xin;Gong, Ruiqi;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Zheng, Jim P.
Target-oriented electrode constructions toward ultra-fast and ultra-stable all-graphene lithium ion capacitors[期刊论文],ENERGY STORAGE MATERIALS,2019-12-01
-
55. DOI
Liu, Yaoyao;Xiang, Zhonghua
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2019-11-06
-
56. DOI
刘瑶瑶,向中华
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater.[期刊论文],ACS Applied Materials & Interfaces,2019-10-15
-
57. DOI
李阳,彭鹏,Huo Feng,Shao Xiaohong,向中华
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],Frontiers in Materials,2019-10-04
-
58. DOI
Li, Yang;Peng, Peng;Huo, Feng;Shao, Xiaohong;Xiang, Zhonghua
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],FRONTIERS IN MATERIALS,2019-10-04
-
59. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Soluble Covalent Organic Polymer for the Flexible Electrode of Supercapacitors[期刊论文],FRONTIERS IN MATERIALS,2019-10-02
-
60. DOI
Li, Yan;Chen, Junxiang;Huang, Junheng;Hou, Yang;Lei, Lecheng;Lin, Wanzhen;Lian, Yaping;Xiang Zhonghua;Yang, Huang-Hao;Wen, Zhenhai
Interfacial engineering of Ru-S-Sb/antimonene electrocatalysts for highly efficient electrolytic hydrogen generation in neutral electrolyte[期刊论文],CHEMICAL COMMUNICATIONS,2019-09-18
-
61. DOI
Cheng, Yuanhui;Guo, Yinjian;Zhang, Ningyuan;Tao, Shuo;Liao, Zhijian;Wang, Yalan;Xiang, Zhonghua
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],NANO ENERGY,2019-09-01
-
62. DOI
Cheng, Yuanhui;Zhang, Ningyuan;Wang, Qiuli;Guo, Yinjian;Tao, Shuo;Liao, Zhijian;Jiang, Peng;Xiang, Zhonghua
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],NANO ENERGY,2019-09-01
-
63. DOI
程元徽,郭银建,张宁远,陶硕,廖之建,王雅岚,向中华
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],Nano Energy,2019-07-10
-
64. DOI
程元徽,张宁远,王秋丽,郭银建,陶硕,廖之剑,姜鹏,向中华
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],Nano Energy,2019-06-13
-
65. DOI
Cheng, Yuanhui;Wang, Yalan;Wang, Qiuli;Liao, Zhijian;Zhang, Ningyuan;Guo, Yinjian;Xiang, Zhonghua
Hierarchically porous metal-free carbon with record high mass activity for oxygen reduction and Zn-air batteries[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-28
-
66. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: a 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-14
-
67. DOI
Liao, Zhijian;Wang, Yalan;Wang, Qiuli;Cheng, Yuanhui;Xiang, Zhonghua
Bimetal-phthalocyanine based covalent organic polymers for highly efficient oxygen electrode[期刊论文],APPLIED CATALYSIS B-ENVIRONMENTAL,2019-04-01
-
68. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xiang, Zhonghua
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
69. DOI
林欣欣,彭鹏,郭佳宁,向中华
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
70. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],Nanoscale,2019-01-07
-
71. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],NANOSCALE,2019-01-07
-
72. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],J. Energy Chem.,2019-01-01
-
73. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: A 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],J. Mater. Chem. A,2019-01-01
-
74. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2019-01-01
-
75. DOI
Zhao, Yun;Xiang, Zhonghua
Synthesis of zeolitic imidazolate frameworks in droplet microfluidic system[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2018-12-01
-
76. DOI
Shi, Lei;Qi, Ziyuan;Peng, Peng;Guo, Jianing;Wan, Gang;Cao, Dapeng;Xiang, Zhonghua
Pyrene-Based Covalent Organic Polymers for Enhanced Photovoltaic Performance and Solar-Driven Hydrogen Production[期刊论文],ACS APPLIED ENERGY MATERIALS,2018-12-01
-
77. DOI
赵云,廖芝建,向中华
Microfluidics for synthesis and morphology control of hierarchical porous covalent organic polymer monolith[期刊论文],CHEMICAL ENGINEERING SCIENCE,2018-10-19
-
78. DOI
赵云;向中华
液滴式微流控芯片制备沸石咪唑骨架材料[期刊论文],科学通报,2018-09-27
-
79. DOI
Guo, Jianing;Lin, Chun-Yu;Xia, Zhenhai;Xiang, Zhonghua
A Pyrolysis-Free Covalent Organic Polymer for Oxygen Reduction[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2018-09-17
-
80. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
81. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
82. DOI
Xiang, Zhonghua
Covalent organic polymers for electrocatalysis[会议论文],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2018-08-19
-
83. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
84. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
85. DOI
张伟超,程元徽,郭春帅,谢程鹏,向中华
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],Industrial & Engineering Chemistry Research,2018-07-19
-
86. DOI
Yang, Liu;Cheng, Daojian;Zeng, Xiaofei;Wan, Xin;Shui, Jianglan;Xiang, Zhonghua;Cao, Dapeng
Unveiling the high-activity origin of single-atom iron catalysts for oxygen reduction reaction[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2018-06-26
-
87. DOI
Shi, Lei;Peng, Peng;Xiang, Zhonghua
Controlled synthesis of porous nitrogen-doped carbon nanoshells for highly efficient oxygen reduction[期刊论文],REACTION CHEMISTRY & ENGINEERING,2018-06-01
-
88. DOI
Xu, Jing;Huo, Feng;Zhao, Yufei;Liu, Yaoyao;Yang, Qingqing;Cheng, Yuanhui;Min, Shixiong;Jin, Zhiliang;Xiang, Zhonghua
In-situ La doped Co3O4 as highly efficient photocatalyst for solar hydrogen generation[期刊论文],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018-05-03
-
89. DOI
Ma, Jizhen;Xiang, Zhonghua;Zhang, Jintao
Three-dimensional nitrogen and phosphorous Co-doped graphene aerogel electrocatalysts for efficient oxygen reduction reaction[期刊论文],SCIENCE CHINA-CHEMISTRY,2018-05-01
-
90. DOI
Cheng, Yuanhui;Li, Dongming;Shi, Lei;Xiang, Zhonghua
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],NANO ENERGY,2018-05-01
-
91. DOI
Zhou, Zhuohang;Peng, Peng;Xiang, Zhonghua
N-rich covalent organic polymer in situ modified TiO2 for highly efficient photocatalytic hydrogen evolution[期刊论文],SCIENCE BULLETIN,2018-03-30
-
92. DOI
程元徽,李东明,石磊,向中华
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],Nano Energy,2018-03-07
-
93. DOI
Meng, Zhu;Li, Juntao;Huo, Feng;Huang, Yan;Xiang, Zhonghua
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-12-31
-
94. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
95. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
96. DOI
孟竹,黄燕,向中华,Juntao Li,Feng Huo
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],Chemical Engineering Science,2017-09-08
-
97. DOI
黄燕;李鼎;孟竹;周卓航;郭佳宁;程元徽;向中华
共价有机聚合物的合成及在燃料电池阴极氧还原反应中的应用[期刊论文],中国材料进展,2017-09-05
-
98. DOI
Guo, Jianing;Cheng, Yuanhui;Xiang, Zhonghua
Confined-Space-Assisted Preparation of Fe3O4-Nanoparticle-Modified Fe-N-C Catalysts Derived from a Covalent Organic Polymer for Oxygen Reduction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2017-09-01
-
99. DOI
Guo, Jianing;Li, Yang;Cheng, Yuanhui;Dai, Liming;Xiang, Zhonghua
Highly Efficient Oxygen Reduction Reaction Electrocatalysts Synthesized under Nanospace Confinement of Metal-Oganic Framework[期刊论文],ACS NANO,2017-08-01
-
100. DOI
Peng, Peng;Zhou, Zhuohang;Guo, Jianing;Xiang, Zhonghua
Well-Defined 2D Covalent Organic Polymers for Energy Electrocatalysis[期刊论文],ACS ENERGY LETTERS,2017-06-01
-
101. DOI
Cheng, Yuanhui;Guo, Jianing;Huang, Yan;Liao, Zhijian;Xiang, Zhonghua
Ultrastable hydrogen evolution electrocatalyst derived from phosphide postmodified metal-organic frameworks[期刊论文],NANO ENERGY,2017-05-01
-
102. DOI
Yang, Qingqing;Peng, Peng;Xiang, Zhonghua
Covalent organic polymer modified TiO2 nanosheets as highly efficient photocatalysts for hydrogen generation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-04-27
-
103. DOI
Xie,Chengpeng;Huo,Feng;Huang,Yan;Cheng,Yuanhui;Liu,Guangqing;Xiang,Zhonghua
Holey Graphitic Carbon Derived from Covalent Organic Polymers Impregnated with Nonprecious Metals for CO 2 Capture from Natural Gas[期刊论文],Particle and Particle Systems Characterization,2017-02-01
-
104. DOI
Xiang, Zhonghua;Zhu, Lin;Qi, Lei;Yan, Lu;Xue, Yuhua;Wang, Dan;Chen, Jian-Feng;Dai, Liming
Two-Dimensional Fully Conjugated Polymeric Photosensitizers for Advanced Photodynamic Therapy[期刊论文],CHEMISTRY OF MATERIALS,2016-12-13
-
105. DOI
Lu, Ke;Hu, Ziyu;Xiang, Zhonghua;Ma, Jizhen;Song, Bin;Zhang, Jintao;Ma, Houyi
Cation Intercalation in Manganese Oxide Nanosheets: Effects on Lithium and Sodium Storage[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2016-08-22
-
106. DOI
Xiang, Zhonghua;Dai, Quanbin;Chen, Jian-Feng;Dai, Liming
Edge Functionalization of Graphene and Two-Dimensional Covalent Organic Polymers for Energy Conversion and Storage[期刊论文],ADVANCED MATERIALS,2016-08-03
-
107. DOI
Fu, Yu'ang;Huang, Yan;Xiang, Zhonghua;Liu, Guangqing;Cao, Dapeng
Phosphorous-Nitrogen-Codoped Carbon Materials Derived from Metal-Organic Frameworks as Efficient Electrocatalysts for Oxygen Reduction Reactions[期刊论文],EUROPEAN JOURNAL OF INORGANIC CHEMISTRY,2016-05-01
-
108. DOI
Xiang, Zhonghua;Mercado, Rocio;Huck, Johanna M.;Wang, Hui;Guo, Zhanhu;Wang, Wenchuan;Cao, Dapeng;Haranczyk, Maciej;Smit, Berend
Systematic Tuning and Multifunctionalization of Covalent Organic Polymers for Enhanced Carbon Capture[期刊论文],JOURNAL OF THE AMERICAN CHEMICAL SOCIETY,2015-10-21
-
109. DOI
向中华
面向能源转化与存储应用的共价多孔骨架材料的可控制备[会议论文],2015年中国化工学会年会论文集,2015-10-17
-
110. DOI
Wan Gang;Fu Yu'ang;Guo Jianing;Xiang Zhonghua
Photoelectronic Porous Covalent Organic Materials: Research Progress and Perspective[期刊论文],ACTA CHIMICA SINICA,2015-06-15
-
111. DOI
Xiang, Zhonghua;Cao, Dapeng;Shao, Xiaohong;Wang, Wenchuan;Zhang, Jianwei;Wu, Weize
Facile preparation of high-capacity hydrogen storage metal-organic frameworks : A combination of microwave-assisted solvothermal synthesis and supercritical activation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2010-05-15
[+][-]
2026年
-
1. DOI
赵林杰,蔡奇峰,毛宝光,毛俊杰,董慧,向中华,朱嘉,Rajib Paul,王丹,龙永德,曲良体,鄢日清,Liming Dai,胡传刚
A universal approach to dual-metal-atom catalytic sites confined in carbon dots for various target reactions[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2023-10-24
-
2. DOI
Han, Linkai;Yu, Haifeng;Xiang, Zhonghua
Asymmetric Active Sites for Boosting Oxygen Evolution Reaction[期刊论文],Small,2023-10-11
-
3. DOI
Mi, Chunxia;Yu, Haifeng;Han, Linkai;Zhang, Lirong;Zhai, Lingling;Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Symmetric Electronic Structures of Active Sites to Boost Bifunctional Oxygen Electrocatalysis by MN4+4 Sites Directly from Initial Covalent Organic Polymers[期刊论文],Advanced Functional Materials,2023-09-05
-
4. DOI
Yang, Bolong;Yu, Xiaogang;Hou, Jingkui;Xiang, Zhonghua
Secondary reduction strategy synthesis of Pt–Co nanoparticle catalysts towards boosting the activity of proton exchange membrane fuel cells[期刊论文],Particuology,2023-08-01
-
5. DOI
Yang, Bolong;Yu, Haifeng;Jia, Xudong;Cheng, Qian;Ren, Yaoliang;He, Bing;Xiang, Zhonghua
Atomically Dispersed Isolated Fe-Ce Dual-Metal-Site Catalysts for Proton-Exchange Membrane Fuel Cells[期刊论文],ACS Applied Materials and Interfaces,2023-05-17
-
6. DOI
鲍春竹;向中华
非热解共价有机聚合物基氧还原电催化材料[期刊论文],高等学校化学学报,2023-05-10
-
7. DOI
Li, Xueli;Chen, Tengge;Yang, Bolong;Xiang, Zhonghua
Fundamental Understanding of Electronic Structure in FeN4 Site on Electrocatalytic Activity via dz2-Orbital-Driven Charge Tuning for Acidic Oxygen Reduction[期刊论文],Angewandte Chemie - International Edition,2023-04-11
-
8. DOI
Yang, Bolong;Han, Qing;Han, Linkai;Leng, Yiming;O'Carroll, Thomas;Yang, Xiaoxuan;Wu, Gang;Xiang, Zhonghua
Porous Covalent Organic Polymer Coordinated Single Co Site Nanofibers for Efficient Oxygen-Reduction Cathodes in Polymer Electrolyte Fuel Cells[期刊论文],Advanced Materials,2023-01-05
-
9. DOI
Yang, Bolong;Li, Bingjie;Xiang, Zhonghua
Advanced MOF-based electrode materials for supercapacitors and electrocatalytic oxygen reduction[期刊论文],Nano Research,2023-01-01
-
10. DOI
Guo, Bingran;Guo, Jianing;Yang, Wenlu;Tian, Xiyao;Wang, Xi;Xiang, Zhonghua;Wu, Mingxing
Highly dispersed iron/nickel dual-sites in hierarchical porous carbon materials as high-performance bifunctional oxygen electrocatalysts for Zn-air batteries[期刊论文],Renewable Energy,2022-12-01
-
11. DOI
韩清;向中华
质子交换膜燃料电池阴极梯度催化层的数值模拟[期刊论文],化学反应工程与工艺,2022-10-25
-
12. DOI
Leng, Yiming;Yang, Bolong;Zhao, Yun;Xiang, Zhonghua
Fluorinated bimetallic nanoparticles decorated carbon nanofibers as highly active and durable oxygen electrocatalyst for fuel cells[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-10-01
-
13. DOI
Wang, Qian;Meng, Zhu;Li, Juntao;Peng, Shuming;Xiang, Zhonghua
High retention volume covalent organic polymer for xenon capture: Dynamic separation of Xe and Kr[期刊论文],Green Energy and Environment,2022-10-01
-
14. DOI
Yang, Bolong;Li, Xueli;Cheng, Qian;Jia, Xudong;Liu, Yujia;Xiang, Zhonghua
A highly efficient axial coordinated CoN5 electrocatalyst via pyrolysis-free strategy for alkaline polymer electrolyte fuel cells[期刊论文],NANO ENERGY,2022-10-01
-
15. DOI
Wang, Yi-Fei;Xiang, Heng-Yang;Zhou, Yi-Hui;Li, Xue-Li;Wang, Run;Xu, Bo;Liu, Jun;Li, Wei-Jin;Xiang, Zhong-Hua;Zeng, Hai-Bo
Perovskite Light Emitting Diodes Using Covalent Organic Polymers as Hole Injection Layers[期刊论文],Faguang Xuebao/Chinese Journal of Luminescence,2022-10-01
-
16. DOI
Cheng, Qian;Yang, Bolong;Wu, Wenyi;Xiang, Zhonghua
S-doped Fe-N-C as Catalysts for Highly Reactive Oxygen Reduction Reactions[期刊论文],Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities,2022-09-10
-
17. DOI
Li, Xueli;Liu, Qingbin;Yang, Bolong;Liao, Zhijian;Yan, Wensheng;Xiang, Zhonghua
An Initial Covalent Organic Polymer with Closed-F Edges Directly for Proton-Exchange-Membrane Fuel Cells[期刊论文],ADVANCED MATERIALS,2022-09-01
-
18. DOI
Zhao, Yun;Yu, Xiaogang;Wen, Xin;Luo, Yong;Xiang, Zhonghua;Chen, Jian-feng
HiGee strategy towards large-scale synthesis of soluble covalent organic frameworks[期刊论文],AIChE Journal,2022-08-25
-
19. DOI
谢宇新,余小刚,靳昭行,刘庆彬,赵云,向中华
Dual-template strategy synthesis of hierarchically porous electrocatalysts for oxygen reduction reaction[期刊论文],Advanced Sensor and Energy Materials,2022-06-06
-
20. DOI
Li, Xueli;Liu, Di;Liu, Qingbin;Xiang, Zhonghua
A Pyrolysis-Free Method Toward Large-Scale Synthesis of Ultra-Highly Efficient Bifunctional Oxygen Electrocatalyst for Zinc-Air Flow Batteries[期刊论文],Small,2022-05-26
-
21. DOI
Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Dithiine Bridged Phthalocyanine-Based Covalent Organic Frameworks for Highly Efficient Oxygen Reduction Reaction[期刊论文],Journal of Physical Chemistry C,2022-03-03
-
22. DOI
Cui, Juan;Leng, Yiming;Xiang, Zhonghua
FeNi co-doped electrocatalyst synthesized via binary ligand strategy as a bifunctional catalyst for Zn-air flow battery[期刊论文],Chemical Engineering Science,2022-01-16
-
23. DOI
Jiang, Minghang;Han, Linkai;Peng, Peng;Hu, Yi;Xiong, Yan;Mi, Chunxia;Tie, Zuoxiu;Xiang, Zhonghua;Jin, Zhong
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High-Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2022-01-12
-
24. DOI
李雪丽,向中华
Identifying the impact of the covalent-bonded carbon matrix to FeN4 sites for acidic oxygen reduction[期刊论文],Nature Communications,2022-01-06
-
25. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
26. DOI
Liu, Qingbin;Xu, Li;Liu, Shizhen;Xiang, Zhonghua
Binary ligand strategy toward interweaved encapsulation-nanotubes structured electrocatalyst for proton exchange membrane fuel cell[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-01-01
-
27. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
28. DOI
MInghang Jiang,Linkai Han,Peng Peng,Yi Hu,Yan Xiong,Chunxia Mi,向中华,金钟
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High- Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2021-12-21
-
29. DOI
Wu, Hao;Han, Linkai;Wang, Ni;Yun, Ling-Xia;Xiang, Zhonghua;Wang, Jie-Xin
Sodium laurate-assisted CeO2 nanoparticles as highly efficient and recyclable catalysts for cyanosilylation reaction[期刊论文],Applied Catalysis A: General,2021-11-25
-
30. DOI
Liu, Yaoyao;Yu, Haifeng;Shi, Chong;Xiang, Zhonghua
Localized electron density modulation in conjugated polymer nanosheets for boosting photocatalytic H-2 evolution[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2021-09-21
-
31. DOI
Zang, Ying;Mi, Chunxia;Wang, Rui;Chen, Hong;Peng, Peng;Xiang, Zhonghua;Zang, Shuang-Quan;Mak, Thomas C. W.
Pyrolysis-Free Synthesized Catalyst towards Acidic Oxygen Reduction by Deprotonation[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2021-09-13
-
32. DOI
Yang, Bolong;Han, Qing;Xiang, Zhonghua
Progress of membrane electrode structure and its design for proton exchange membrane fuel cell[期刊论文],Huagong Jinzhan/Chemical Industry and Engineering Progress,2021-09-05
-
33. DOI
Liu, Changfei;Liu, Yaoyao;Xiang, Zhonghua;Liu, Dahuan;Yang, Qingyuan
Bimetallic MOF-Derived Sulfides with Heterojunction Interfaces Synthesized for Photocatalytic Hydrogen Evolution[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2021-08-04
-
34. DOI
Liu, Yaoyao;Li, Bingjie;Xiang, Zhonghua
Pathways towards Boosting Solar-Driven Hydrogen Evolution of Conjugated Polymers[期刊论文],SMALL,2021-08-01
-
35. DOI
程元徽,周圣杰,王睿,高霞,张彦梅,向中华
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
36. DOI
Cheng, Yuanhui;Zhou, Shengjie;Wang, Rui;Gao, Xia;Zhang, Yanmei;Xiang, Zhonghua
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
37. DOI
Guo, Jianing;Li, Bingjie;Zhang, Qiyu;Liu, Qingtao;Wang, Zelin;Zhao, Yufei;Shui, Jianglan;Xiang, Zhonghua
Highly Accessible Atomically Dispersed Fe-N-x Sites Electrocatalyst for Proton-Exchange Membrane Fuel Cell[期刊论文],ADVANCED SCIENCE,2021-03-01
-
38. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xie, Lianhua;Liu, Yujia;Xiang, Zhonghua
A new steric tetra-imidazole for facile synthesis of high loading atomically dispersed FeN4 electrocatalysts[期刊论文],Nano Energy,2021-02-01
-
39. DOI
Guo, Jianing;Xiang, Zhonghua
Progress of metal macrocyclic compound-based oxygen reduction electrocatalysts[期刊论文],Huagong Xuebao/CIESC Journal,2021-01-01
-
40. DOI
向中华
非碳化共价有机聚合物材料的设计与能源催化[会议论文],第五届全国新能源与化工新材料学术会议--2020全国能量转换与存储材料学术研讨会摘要集,2020-10-15
-
41. DOI
赵云,张敏,文鑫,向中华
Microfluidic interface boosted synthesis of covalent organic polymer capsule[期刊论文],Green Chemical Engineering,2020-09-21
-
42. DOI
Gan, Jie;Hao, Chunyu;Guo, Jianing;Chen, Wenyao;Cao, Yueqiang;Luo, Wei;Huang, Zikun;Xiang, Zhonghua;Duan, Xuezhi;Zhou, Xinggui
How PM2.5 Affects Pt-Catalyzed Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-06-29
-
43. DOI
Zhao, Yun;Xiang, Zhonghua
Progress of microfluidic synthesis of metal/covalent organic frameworks[期刊论文],Huagong Xuebao/CIESC Journal,2020-06-01
-
44. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Pyrolysis-free approach towards synthesis of oxygen reduction electrocatalysts[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2020-05-15
-
45. DOI
郭佳宁,Huo Feng,程元徽,向中华
PAF-1 as oxygen tank to in-situ synthesize edge-exposed O-MoS2 for highly efficient hydrogen evolution[期刊论文],CATALYSIS TODAY,2020-05-01
-
46. DOI
Guo, Jianing;Huo, Feng;Cheng, Yuanhui;Xiang, Zhonghua
PAF-1 as oxygen tank to in -situ synthesize edge -exposed O-MoS 2 for highly efficient hydrogen evolution[会议论文],CATALYSIS TODAY,2020-05-01
-
47. DOI
赵云;向中华
微流控制备金属/共价有机框架功能材料研究进展[期刊论文],化工学报,2020-04-01
-
48. DOI
Li, Yang;Peng, Peng;Liao, Zhijian;Huo, Feng;Liu, Yujia;Shao, Xiaohong;Xiang, Zhonghua
Nitro-Group-Doped Fully Conjugated 2D Covalent Organic Polymers for Enhanced Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-03-09
-
49. DOI
Zhang, Weichao;Liu, Yujia;Luo, Yong;Xie, Chengpeng;Xiang, Zhonghua;Chen, Jian-Feng
HiGee Strategy toward Rapid Mass Production of Porous Covalent Organic Polymers with Superior Methane Deliverable Capacity[期刊论文],ADVANCED FUNCTIONAL MATERIALS,2020-03-01
-
50. DOI
Xia Zhenhai,向中华
Editorial: Catalysts for Clean Energy Conversion and Storage.[期刊论文],Frontiers in Materials,2020-02-21
-
51. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],FRONTIERS IN MATERIALS,2020-02-21
-
52. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],Frontiers in Materials,2020-02-21
-
53. DOI
Xu, Baolin;Qi, Shihan;Jin, Mengmeng;Cai, Xiaoyi;Lai, Linfei;Sun, Zhouting;Han, Xiaogang;Lin, Zifeng;Shao, Hui;Peng, Peng;Xiang, Zhonghua;ten Elshof, Johan E.;Tan, Rou;Liu, Chen;Zhang, Zhaoxi;Duan, Xiaochuan;Ma, Jianmin
2020 roadmap on two-dimensional materials for energy storage and conversion[期刊论文],CHINESE CHEMICAL LETTERS,2019-12-01
-
54. DOI
Jin, Liming;Guo, Xin;Gong, Ruiqi;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Zheng, Jim P.
Target-oriented electrode constructions toward ultra-fast and ultra-stable all-graphene lithium ion capacitors[期刊论文],ENERGY STORAGE MATERIALS,2019-12-01
-
55. DOI
Liu, Yaoyao;Xiang, Zhonghua
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2019-11-06
-
56. DOI
刘瑶瑶,向中华
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater.[期刊论文],ACS Applied Materials & Interfaces,2019-10-15
-
57. DOI
李阳,彭鹏,Huo Feng,Shao Xiaohong,向中华
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],Frontiers in Materials,2019-10-04
-
58. DOI
Li, Yang;Peng, Peng;Huo, Feng;Shao, Xiaohong;Xiang, Zhonghua
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],FRONTIERS IN MATERIALS,2019-10-04
-
59. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Soluble Covalent Organic Polymer for the Flexible Electrode of Supercapacitors[期刊论文],FRONTIERS IN MATERIALS,2019-10-02
-
60. DOI
Li, Yan;Chen, Junxiang;Huang, Junheng;Hou, Yang;Lei, Lecheng;Lin, Wanzhen;Lian, Yaping;Xiang Zhonghua;Yang, Huang-Hao;Wen, Zhenhai
Interfacial engineering of Ru-S-Sb/antimonene electrocatalysts for highly efficient electrolytic hydrogen generation in neutral electrolyte[期刊论文],CHEMICAL COMMUNICATIONS,2019-09-18
-
61. DOI
Cheng, Yuanhui;Guo, Yinjian;Zhang, Ningyuan;Tao, Shuo;Liao, Zhijian;Wang, Yalan;Xiang, Zhonghua
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],NANO ENERGY,2019-09-01
-
62. DOI
Cheng, Yuanhui;Zhang, Ningyuan;Wang, Qiuli;Guo, Yinjian;Tao, Shuo;Liao, Zhijian;Jiang, Peng;Xiang, Zhonghua
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],NANO ENERGY,2019-09-01
-
63. DOI
程元徽,郭银建,张宁远,陶硕,廖之建,王雅岚,向中华
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],Nano Energy,2019-07-10
-
64. DOI
程元徽,张宁远,王秋丽,郭银建,陶硕,廖之剑,姜鹏,向中华
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],Nano Energy,2019-06-13
-
65. DOI
Cheng, Yuanhui;Wang, Yalan;Wang, Qiuli;Liao, Zhijian;Zhang, Ningyuan;Guo, Yinjian;Xiang, Zhonghua
Hierarchically porous metal-free carbon with record high mass activity for oxygen reduction and Zn-air batteries[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-28
-
66. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: a 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-14
-
67. DOI
Liao, Zhijian;Wang, Yalan;Wang, Qiuli;Cheng, Yuanhui;Xiang, Zhonghua
Bimetal-phthalocyanine based covalent organic polymers for highly efficient oxygen electrode[期刊论文],APPLIED CATALYSIS B-ENVIRONMENTAL,2019-04-01
-
68. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xiang, Zhonghua
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
69. DOI
林欣欣,彭鹏,郭佳宁,向中华
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
70. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],Nanoscale,2019-01-07
-
71. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],NANOSCALE,2019-01-07
-
72. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],J. Energy Chem.,2019-01-01
-
73. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: A 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],J. Mater. Chem. A,2019-01-01
-
74. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2019-01-01
-
75. DOI
Zhao, Yun;Xiang, Zhonghua
Synthesis of zeolitic imidazolate frameworks in droplet microfluidic system[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2018-12-01
-
76. DOI
Shi, Lei;Qi, Ziyuan;Peng, Peng;Guo, Jianing;Wan, Gang;Cao, Dapeng;Xiang, Zhonghua
Pyrene-Based Covalent Organic Polymers for Enhanced Photovoltaic Performance and Solar-Driven Hydrogen Production[期刊论文],ACS APPLIED ENERGY MATERIALS,2018-12-01
-
77. DOI
赵云,廖芝建,向中华
Microfluidics for synthesis and morphology control of hierarchical porous covalent organic polymer monolith[期刊论文],CHEMICAL ENGINEERING SCIENCE,2018-10-19
-
78. DOI
赵云;向中华
液滴式微流控芯片制备沸石咪唑骨架材料[期刊论文],科学通报,2018-09-27
-
79. DOI
Guo, Jianing;Lin, Chun-Yu;Xia, Zhenhai;Xiang, Zhonghua
A Pyrolysis-Free Covalent Organic Polymer for Oxygen Reduction[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2018-09-17
-
80. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
81. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
82. DOI
Xiang, Zhonghua
Covalent organic polymers for electrocatalysis[会议论文],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2018-08-19
-
83. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
84. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
85. DOI
张伟超,程元徽,郭春帅,谢程鹏,向中华
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],Industrial & Engineering Chemistry Research,2018-07-19
-
86. DOI
Yang, Liu;Cheng, Daojian;Zeng, Xiaofei;Wan, Xin;Shui, Jianglan;Xiang, Zhonghua;Cao, Dapeng
Unveiling the high-activity origin of single-atom iron catalysts for oxygen reduction reaction[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2018-06-26
-
87. DOI
Shi, Lei;Peng, Peng;Xiang, Zhonghua
Controlled synthesis of porous nitrogen-doped carbon nanoshells for highly efficient oxygen reduction[期刊论文],REACTION CHEMISTRY & ENGINEERING,2018-06-01
-
88. DOI
Xu, Jing;Huo, Feng;Zhao, Yufei;Liu, Yaoyao;Yang, Qingqing;Cheng, Yuanhui;Min, Shixiong;Jin, Zhiliang;Xiang, Zhonghua
In-situ La doped Co3O4 as highly efficient photocatalyst for solar hydrogen generation[期刊论文],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018-05-03
-
89. DOI
Ma, Jizhen;Xiang, Zhonghua;Zhang, Jintao
Three-dimensional nitrogen and phosphorous Co-doped graphene aerogel electrocatalysts for efficient oxygen reduction reaction[期刊论文],SCIENCE CHINA-CHEMISTRY,2018-05-01
-
90. DOI
Cheng, Yuanhui;Li, Dongming;Shi, Lei;Xiang, Zhonghua
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],NANO ENERGY,2018-05-01
-
91. DOI
Zhou, Zhuohang;Peng, Peng;Xiang, Zhonghua
N-rich covalent organic polymer in situ modified TiO2 for highly efficient photocatalytic hydrogen evolution[期刊论文],SCIENCE BULLETIN,2018-03-30
-
92. DOI
程元徽,李东明,石磊,向中华
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],Nano Energy,2018-03-07
-
93. DOI
Meng, Zhu;Li, Juntao;Huo, Feng;Huang, Yan;Xiang, Zhonghua
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-12-31
-
94. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
95. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
96. DOI
孟竹,黄燕,向中华,Juntao Li,Feng Huo
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],Chemical Engineering Science,2017-09-08
-
97. DOI
黄燕;李鼎;孟竹;周卓航;郭佳宁;程元徽;向中华
共价有机聚合物的合成及在燃料电池阴极氧还原反应中的应用[期刊论文],中国材料进展,2017-09-05
-
98. DOI
Guo, Jianing;Cheng, Yuanhui;Xiang, Zhonghua
Confined-Space-Assisted Preparation of Fe3O4-Nanoparticle-Modified Fe-N-C Catalysts Derived from a Covalent Organic Polymer for Oxygen Reduction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2017-09-01
-
99. DOI
Guo, Jianing;Li, Yang;Cheng, Yuanhui;Dai, Liming;Xiang, Zhonghua
Highly Efficient Oxygen Reduction Reaction Electrocatalysts Synthesized under Nanospace Confinement of Metal-Oganic Framework[期刊论文],ACS NANO,2017-08-01
-
100. DOI
Peng, Peng;Zhou, Zhuohang;Guo, Jianing;Xiang, Zhonghua
Well-Defined 2D Covalent Organic Polymers for Energy Electrocatalysis[期刊论文],ACS ENERGY LETTERS,2017-06-01
-
101. DOI
Cheng, Yuanhui;Guo, Jianing;Huang, Yan;Liao, Zhijian;Xiang, Zhonghua
Ultrastable hydrogen evolution electrocatalyst derived from phosphide postmodified metal-organic frameworks[期刊论文],NANO ENERGY,2017-05-01
-
102. DOI
Yang, Qingqing;Peng, Peng;Xiang, Zhonghua
Covalent organic polymer modified TiO2 nanosheets as highly efficient photocatalysts for hydrogen generation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-04-27
-
103. DOI
Xie,Chengpeng;Huo,Feng;Huang,Yan;Cheng,Yuanhui;Liu,Guangqing;Xiang,Zhonghua
Holey Graphitic Carbon Derived from Covalent Organic Polymers Impregnated with Nonprecious Metals for CO 2 Capture from Natural Gas[期刊论文],Particle and Particle Systems Characterization,2017-02-01
-
104. DOI
Xiang, Zhonghua;Zhu, Lin;Qi, Lei;Yan, Lu;Xue, Yuhua;Wang, Dan;Chen, Jian-Feng;Dai, Liming
Two-Dimensional Fully Conjugated Polymeric Photosensitizers for Advanced Photodynamic Therapy[期刊论文],CHEMISTRY OF MATERIALS,2016-12-13
-
105. DOI
Lu, Ke;Hu, Ziyu;Xiang, Zhonghua;Ma, Jizhen;Song, Bin;Zhang, Jintao;Ma, Houyi
Cation Intercalation in Manganese Oxide Nanosheets: Effects on Lithium and Sodium Storage[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2016-08-22
-
106. DOI
Xiang, Zhonghua;Dai, Quanbin;Chen, Jian-Feng;Dai, Liming
Edge Functionalization of Graphene and Two-Dimensional Covalent Organic Polymers for Energy Conversion and Storage[期刊论文],ADVANCED MATERIALS,2016-08-03
-
107. DOI
Fu, Yu'ang;Huang, Yan;Xiang, Zhonghua;Liu, Guangqing;Cao, Dapeng
Phosphorous-Nitrogen-Codoped Carbon Materials Derived from Metal-Organic Frameworks as Efficient Electrocatalysts for Oxygen Reduction Reactions[期刊论文],EUROPEAN JOURNAL OF INORGANIC CHEMISTRY,2016-05-01
-
108. DOI
Xiang, Zhonghua;Mercado, Rocio;Huck, Johanna M.;Wang, Hui;Guo, Zhanhu;Wang, Wenchuan;Cao, Dapeng;Haranczyk, Maciej;Smit, Berend
Systematic Tuning and Multifunctionalization of Covalent Organic Polymers for Enhanced Carbon Capture[期刊论文],JOURNAL OF THE AMERICAN CHEMICAL SOCIETY,2015-10-21
-
109. DOI
向中华
面向能源转化与存储应用的共价多孔骨架材料的可控制备[会议论文],2015年中国化工学会年会论文集,2015-10-17
-
110. DOI
Wan Gang;Fu Yu'ang;Guo Jianing;Xiang Zhonghua
Photoelectronic Porous Covalent Organic Materials: Research Progress and Perspective[期刊论文],ACTA CHIMICA SINICA,2015-06-15
-
111. DOI
Xiang, Zhonghua;Cao, Dapeng;Shao, Xiaohong;Wang, Wenchuan;Zhang, Jianwei;Wu, Weize
Facile preparation of high-capacity hydrogen storage metal-organic frameworks : A combination of microwave-assisted solvothermal synthesis and supercritical activation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2010-05-15
[+][-]
2025年
-
1. DOI
赵林杰,蔡奇峰,毛宝光,毛俊杰,董慧,向中华,朱嘉,Rajib Paul,王丹,龙永德,曲良体,鄢日清,Liming Dai,胡传刚
A universal approach to dual-metal-atom catalytic sites confined in carbon dots for various target reactions[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2023-10-24
-
2. DOI
Han, Linkai;Yu, Haifeng;Xiang, Zhonghua
Asymmetric Active Sites for Boosting Oxygen Evolution Reaction[期刊论文],Small,2023-10-11
-
3. DOI
Mi, Chunxia;Yu, Haifeng;Han, Linkai;Zhang, Lirong;Zhai, Lingling;Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Symmetric Electronic Structures of Active Sites to Boost Bifunctional Oxygen Electrocatalysis by MN4+4 Sites Directly from Initial Covalent Organic Polymers[期刊论文],Advanced Functional Materials,2023-09-05
-
4. DOI
Yang, Bolong;Yu, Xiaogang;Hou, Jingkui;Xiang, Zhonghua
Secondary reduction strategy synthesis of Pt–Co nanoparticle catalysts towards boosting the activity of proton exchange membrane fuel cells[期刊论文],Particuology,2023-08-01
-
5. DOI
Yang, Bolong;Yu, Haifeng;Jia, Xudong;Cheng, Qian;Ren, Yaoliang;He, Bing;Xiang, Zhonghua
Atomically Dispersed Isolated Fe-Ce Dual-Metal-Site Catalysts for Proton-Exchange Membrane Fuel Cells[期刊论文],ACS Applied Materials and Interfaces,2023-05-17
-
6. DOI
鲍春竹;向中华
非热解共价有机聚合物基氧还原电催化材料[期刊论文],高等学校化学学报,2023-05-10
-
7. DOI
Li, Xueli;Chen, Tengge;Yang, Bolong;Xiang, Zhonghua
Fundamental Understanding of Electronic Structure in FeN4 Site on Electrocatalytic Activity via dz2-Orbital-Driven Charge Tuning for Acidic Oxygen Reduction[期刊论文],Angewandte Chemie - International Edition,2023-04-11
-
8. DOI
Yang, Bolong;Han, Qing;Han, Linkai;Leng, Yiming;O'Carroll, Thomas;Yang, Xiaoxuan;Wu, Gang;Xiang, Zhonghua
Porous Covalent Organic Polymer Coordinated Single Co Site Nanofibers for Efficient Oxygen-Reduction Cathodes in Polymer Electrolyte Fuel Cells[期刊论文],Advanced Materials,2023-01-05
-
9. DOI
Yang, Bolong;Li, Bingjie;Xiang, Zhonghua
Advanced MOF-based electrode materials for supercapacitors and electrocatalytic oxygen reduction[期刊论文],Nano Research,2023-01-01
-
10. DOI
Guo, Bingran;Guo, Jianing;Yang, Wenlu;Tian, Xiyao;Wang, Xi;Xiang, Zhonghua;Wu, Mingxing
Highly dispersed iron/nickel dual-sites in hierarchical porous carbon materials as high-performance bifunctional oxygen electrocatalysts for Zn-air batteries[期刊论文],Renewable Energy,2022-12-01
-
11. DOI
韩清;向中华
质子交换膜燃料电池阴极梯度催化层的数值模拟[期刊论文],化学反应工程与工艺,2022-10-25
-
12. DOI
Leng, Yiming;Yang, Bolong;Zhao, Yun;Xiang, Zhonghua
Fluorinated bimetallic nanoparticles decorated carbon nanofibers as highly active and durable oxygen electrocatalyst for fuel cells[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-10-01
-
13. DOI
Wang, Qian;Meng, Zhu;Li, Juntao;Peng, Shuming;Xiang, Zhonghua
High retention volume covalent organic polymer for xenon capture: Dynamic separation of Xe and Kr[期刊论文],Green Energy and Environment,2022-10-01
-
14. DOI
Yang, Bolong;Li, Xueli;Cheng, Qian;Jia, Xudong;Liu, Yujia;Xiang, Zhonghua
A highly efficient axial coordinated CoN5 electrocatalyst via pyrolysis-free strategy for alkaline polymer electrolyte fuel cells[期刊论文],NANO ENERGY,2022-10-01
-
15. DOI
Wang, Yi-Fei;Xiang, Heng-Yang;Zhou, Yi-Hui;Li, Xue-Li;Wang, Run;Xu, Bo;Liu, Jun;Li, Wei-Jin;Xiang, Zhong-Hua;Zeng, Hai-Bo
Perovskite Light Emitting Diodes Using Covalent Organic Polymers as Hole Injection Layers[期刊论文],Faguang Xuebao/Chinese Journal of Luminescence,2022-10-01
-
16. DOI
Cheng, Qian;Yang, Bolong;Wu, Wenyi;Xiang, Zhonghua
S-doped Fe-N-C as Catalysts for Highly Reactive Oxygen Reduction Reactions[期刊论文],Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities,2022-09-10
-
17. DOI
Li, Xueli;Liu, Qingbin;Yang, Bolong;Liao, Zhijian;Yan, Wensheng;Xiang, Zhonghua
An Initial Covalent Organic Polymer with Closed-F Edges Directly for Proton-Exchange-Membrane Fuel Cells[期刊论文],ADVANCED MATERIALS,2022-09-01
-
18. DOI
Zhao, Yun;Yu, Xiaogang;Wen, Xin;Luo, Yong;Xiang, Zhonghua;Chen, Jian-feng
HiGee strategy towards large-scale synthesis of soluble covalent organic frameworks[期刊论文],AIChE Journal,2022-08-25
-
19. DOI
谢宇新,余小刚,靳昭行,刘庆彬,赵云,向中华
Dual-template strategy synthesis of hierarchically porous electrocatalysts for oxygen reduction reaction[期刊论文],Advanced Sensor and Energy Materials,2022-06-06
-
20. DOI
Li, Xueli;Liu, Di;Liu, Qingbin;Xiang, Zhonghua
A Pyrolysis-Free Method Toward Large-Scale Synthesis of Ultra-Highly Efficient Bifunctional Oxygen Electrocatalyst for Zinc-Air Flow Batteries[期刊论文],Small,2022-05-26
-
21. DOI
Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Dithiine Bridged Phthalocyanine-Based Covalent Organic Frameworks for Highly Efficient Oxygen Reduction Reaction[期刊论文],Journal of Physical Chemistry C,2022-03-03
-
22. DOI
Cui, Juan;Leng, Yiming;Xiang, Zhonghua
FeNi co-doped electrocatalyst synthesized via binary ligand strategy as a bifunctional catalyst for Zn-air flow battery[期刊论文],Chemical Engineering Science,2022-01-16
-
23. DOI
Jiang, Minghang;Han, Linkai;Peng, Peng;Hu, Yi;Xiong, Yan;Mi, Chunxia;Tie, Zuoxiu;Xiang, Zhonghua;Jin, Zhong
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High-Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2022-01-12
-
24. DOI
李雪丽,向中华
Identifying the impact of the covalent-bonded carbon matrix to FeN4 sites for acidic oxygen reduction[期刊论文],Nature Communications,2022-01-06
-
25. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
26. DOI
Liu, Qingbin;Xu, Li;Liu, Shizhen;Xiang, Zhonghua
Binary ligand strategy toward interweaved encapsulation-nanotubes structured electrocatalyst for proton exchange membrane fuel cell[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-01-01
-
27. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
28. DOI
MInghang Jiang,Linkai Han,Peng Peng,Yi Hu,Yan Xiong,Chunxia Mi,向中华,金钟
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High- Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2021-12-21
-
29. DOI
Wu, Hao;Han, Linkai;Wang, Ni;Yun, Ling-Xia;Xiang, Zhonghua;Wang, Jie-Xin
Sodium laurate-assisted CeO2 nanoparticles as highly efficient and recyclable catalysts for cyanosilylation reaction[期刊论文],Applied Catalysis A: General,2021-11-25
-
30. DOI
Liu, Yaoyao;Yu, Haifeng;Shi, Chong;Xiang, Zhonghua
Localized electron density modulation in conjugated polymer nanosheets for boosting photocatalytic H-2 evolution[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2021-09-21
-
31. DOI
Zang, Ying;Mi, Chunxia;Wang, Rui;Chen, Hong;Peng, Peng;Xiang, Zhonghua;Zang, Shuang-Quan;Mak, Thomas C. W.
Pyrolysis-Free Synthesized Catalyst towards Acidic Oxygen Reduction by Deprotonation[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2021-09-13
-
32. DOI
Yang, Bolong;Han, Qing;Xiang, Zhonghua
Progress of membrane electrode structure and its design for proton exchange membrane fuel cell[期刊论文],Huagong Jinzhan/Chemical Industry and Engineering Progress,2021-09-05
-
33. DOI
Liu, Changfei;Liu, Yaoyao;Xiang, Zhonghua;Liu, Dahuan;Yang, Qingyuan
Bimetallic MOF-Derived Sulfides with Heterojunction Interfaces Synthesized for Photocatalytic Hydrogen Evolution[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2021-08-04
-
34. DOI
Liu, Yaoyao;Li, Bingjie;Xiang, Zhonghua
Pathways towards Boosting Solar-Driven Hydrogen Evolution of Conjugated Polymers[期刊论文],SMALL,2021-08-01
-
35. DOI
程元徽,周圣杰,王睿,高霞,张彦梅,向中华
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
36. DOI
Cheng, Yuanhui;Zhou, Shengjie;Wang, Rui;Gao, Xia;Zhang, Yanmei;Xiang, Zhonghua
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
37. DOI
Guo, Jianing;Li, Bingjie;Zhang, Qiyu;Liu, Qingtao;Wang, Zelin;Zhao, Yufei;Shui, Jianglan;Xiang, Zhonghua
Highly Accessible Atomically Dispersed Fe-N-x Sites Electrocatalyst for Proton-Exchange Membrane Fuel Cell[期刊论文],ADVANCED SCIENCE,2021-03-01
-
38. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xie, Lianhua;Liu, Yujia;Xiang, Zhonghua
A new steric tetra-imidazole for facile synthesis of high loading atomically dispersed FeN4 electrocatalysts[期刊论文],Nano Energy,2021-02-01
-
39. DOI
Guo, Jianing;Xiang, Zhonghua
Progress of metal macrocyclic compound-based oxygen reduction electrocatalysts[期刊论文],Huagong Xuebao/CIESC Journal,2021-01-01
-
40. DOI
向中华
非碳化共价有机聚合物材料的设计与能源催化[会议论文],第五届全国新能源与化工新材料学术会议--2020全国能量转换与存储材料学术研讨会摘要集,2020-10-15
-
41. DOI
赵云,张敏,文鑫,向中华
Microfluidic interface boosted synthesis of covalent organic polymer capsule[期刊论文],Green Chemical Engineering,2020-09-21
-
42. DOI
Gan, Jie;Hao, Chunyu;Guo, Jianing;Chen, Wenyao;Cao, Yueqiang;Luo, Wei;Huang, Zikun;Xiang, Zhonghua;Duan, Xuezhi;Zhou, Xinggui
How PM2.5 Affects Pt-Catalyzed Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-06-29
-
43. DOI
Zhao, Yun;Xiang, Zhonghua
Progress of microfluidic synthesis of metal/covalent organic frameworks[期刊论文],Huagong Xuebao/CIESC Journal,2020-06-01
-
44. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Pyrolysis-free approach towards synthesis of oxygen reduction electrocatalysts[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2020-05-15
-
45. DOI
郭佳宁,Huo Feng,程元徽,向中华
PAF-1 as oxygen tank to in-situ synthesize edge-exposed O-MoS2 for highly efficient hydrogen evolution[期刊论文],CATALYSIS TODAY,2020-05-01
-
46. DOI
Guo, Jianing;Huo, Feng;Cheng, Yuanhui;Xiang, Zhonghua
PAF-1 as oxygen tank to in -situ synthesize edge -exposed O-MoS 2 for highly efficient hydrogen evolution[会议论文],CATALYSIS TODAY,2020-05-01
-
47. DOI
赵云;向中华
微流控制备金属/共价有机框架功能材料研究进展[期刊论文],化工学报,2020-04-01
-
48. DOI
Li, Yang;Peng, Peng;Liao, Zhijian;Huo, Feng;Liu, Yujia;Shao, Xiaohong;Xiang, Zhonghua
Nitro-Group-Doped Fully Conjugated 2D Covalent Organic Polymers for Enhanced Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-03-09
-
49. DOI
Zhang, Weichao;Liu, Yujia;Luo, Yong;Xie, Chengpeng;Xiang, Zhonghua;Chen, Jian-Feng
HiGee Strategy toward Rapid Mass Production of Porous Covalent Organic Polymers with Superior Methane Deliverable Capacity[期刊论文],ADVANCED FUNCTIONAL MATERIALS,2020-03-01
-
50. DOI
Xia Zhenhai,向中华
Editorial: Catalysts for Clean Energy Conversion and Storage.[期刊论文],Frontiers in Materials,2020-02-21
-
51. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],FRONTIERS IN MATERIALS,2020-02-21
-
52. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],Frontiers in Materials,2020-02-21
-
53. DOI
Xu, Baolin;Qi, Shihan;Jin, Mengmeng;Cai, Xiaoyi;Lai, Linfei;Sun, Zhouting;Han, Xiaogang;Lin, Zifeng;Shao, Hui;Peng, Peng;Xiang, Zhonghua;ten Elshof, Johan E.;Tan, Rou;Liu, Chen;Zhang, Zhaoxi;Duan, Xiaochuan;Ma, Jianmin
2020 roadmap on two-dimensional materials for energy storage and conversion[期刊论文],CHINESE CHEMICAL LETTERS,2019-12-01
-
54. DOI
Jin, Liming;Guo, Xin;Gong, Ruiqi;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Zheng, Jim P.
Target-oriented electrode constructions toward ultra-fast and ultra-stable all-graphene lithium ion capacitors[期刊论文],ENERGY STORAGE MATERIALS,2019-12-01
-
55. DOI
Liu, Yaoyao;Xiang, Zhonghua
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2019-11-06
-
56. DOI
刘瑶瑶,向中华
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater.[期刊论文],ACS Applied Materials & Interfaces,2019-10-15
-
57. DOI
李阳,彭鹏,Huo Feng,Shao Xiaohong,向中华
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],Frontiers in Materials,2019-10-04
-
58. DOI
Li, Yang;Peng, Peng;Huo, Feng;Shao, Xiaohong;Xiang, Zhonghua
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],FRONTIERS IN MATERIALS,2019-10-04
-
59. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Soluble Covalent Organic Polymer for the Flexible Electrode of Supercapacitors[期刊论文],FRONTIERS IN MATERIALS,2019-10-02
-
60. DOI
Li, Yan;Chen, Junxiang;Huang, Junheng;Hou, Yang;Lei, Lecheng;Lin, Wanzhen;Lian, Yaping;Xiang Zhonghua;Yang, Huang-Hao;Wen, Zhenhai
Interfacial engineering of Ru-S-Sb/antimonene electrocatalysts for highly efficient electrolytic hydrogen generation in neutral electrolyte[期刊论文],CHEMICAL COMMUNICATIONS,2019-09-18
-
61. DOI
Cheng, Yuanhui;Guo, Yinjian;Zhang, Ningyuan;Tao, Shuo;Liao, Zhijian;Wang, Yalan;Xiang, Zhonghua
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],NANO ENERGY,2019-09-01
-
62. DOI
Cheng, Yuanhui;Zhang, Ningyuan;Wang, Qiuli;Guo, Yinjian;Tao, Shuo;Liao, Zhijian;Jiang, Peng;Xiang, Zhonghua
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],NANO ENERGY,2019-09-01
-
63. DOI
程元徽,郭银建,张宁远,陶硕,廖之建,王雅岚,向中华
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],Nano Energy,2019-07-10
-
64. DOI
程元徽,张宁远,王秋丽,郭银建,陶硕,廖之剑,姜鹏,向中华
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],Nano Energy,2019-06-13
-
65. DOI
Cheng, Yuanhui;Wang, Yalan;Wang, Qiuli;Liao, Zhijian;Zhang, Ningyuan;Guo, Yinjian;Xiang, Zhonghua
Hierarchically porous metal-free carbon with record high mass activity for oxygen reduction and Zn-air batteries[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-28
-
66. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: a 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-14
-
67. DOI
Liao, Zhijian;Wang, Yalan;Wang, Qiuli;Cheng, Yuanhui;Xiang, Zhonghua
Bimetal-phthalocyanine based covalent organic polymers for highly efficient oxygen electrode[期刊论文],APPLIED CATALYSIS B-ENVIRONMENTAL,2019-04-01
-
68. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xiang, Zhonghua
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
69. DOI
林欣欣,彭鹏,郭佳宁,向中华
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
70. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],Nanoscale,2019-01-07
-
71. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],NANOSCALE,2019-01-07
-
72. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],J. Energy Chem.,2019-01-01
-
73. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: A 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],J. Mater. Chem. A,2019-01-01
-
74. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2019-01-01
-
75. DOI
Zhao, Yun;Xiang, Zhonghua
Synthesis of zeolitic imidazolate frameworks in droplet microfluidic system[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2018-12-01
-
76. DOI
Shi, Lei;Qi, Ziyuan;Peng, Peng;Guo, Jianing;Wan, Gang;Cao, Dapeng;Xiang, Zhonghua
Pyrene-Based Covalent Organic Polymers for Enhanced Photovoltaic Performance and Solar-Driven Hydrogen Production[期刊论文],ACS APPLIED ENERGY MATERIALS,2018-12-01
-
77. DOI
赵云,廖芝建,向中华
Microfluidics for synthesis and morphology control of hierarchical porous covalent organic polymer monolith[期刊论文],CHEMICAL ENGINEERING SCIENCE,2018-10-19
-
78. DOI
赵云;向中华
液滴式微流控芯片制备沸石咪唑骨架材料[期刊论文],科学通报,2018-09-27
-
79. DOI
Guo, Jianing;Lin, Chun-Yu;Xia, Zhenhai;Xiang, Zhonghua
A Pyrolysis-Free Covalent Organic Polymer for Oxygen Reduction[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2018-09-17
-
80. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
81. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
82. DOI
Xiang, Zhonghua
Covalent organic polymers for electrocatalysis[会议论文],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2018-08-19
-
83. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
84. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
85. DOI
张伟超,程元徽,郭春帅,谢程鹏,向中华
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],Industrial & Engineering Chemistry Research,2018-07-19
-
86. DOI
Yang, Liu;Cheng, Daojian;Zeng, Xiaofei;Wan, Xin;Shui, Jianglan;Xiang, Zhonghua;Cao, Dapeng
Unveiling the high-activity origin of single-atom iron catalysts for oxygen reduction reaction[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2018-06-26
-
87. DOI
Shi, Lei;Peng, Peng;Xiang, Zhonghua
Controlled synthesis of porous nitrogen-doped carbon nanoshells for highly efficient oxygen reduction[期刊论文],REACTION CHEMISTRY & ENGINEERING,2018-06-01
-
88. DOI
Xu, Jing;Huo, Feng;Zhao, Yufei;Liu, Yaoyao;Yang, Qingqing;Cheng, Yuanhui;Min, Shixiong;Jin, Zhiliang;Xiang, Zhonghua
In-situ La doped Co3O4 as highly efficient photocatalyst for solar hydrogen generation[期刊论文],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018-05-03
-
89. DOI
Ma, Jizhen;Xiang, Zhonghua;Zhang, Jintao
Three-dimensional nitrogen and phosphorous Co-doped graphene aerogel electrocatalysts for efficient oxygen reduction reaction[期刊论文],SCIENCE CHINA-CHEMISTRY,2018-05-01
-
90. DOI
Cheng, Yuanhui;Li, Dongming;Shi, Lei;Xiang, Zhonghua
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],NANO ENERGY,2018-05-01
-
91. DOI
Zhou, Zhuohang;Peng, Peng;Xiang, Zhonghua
N-rich covalent organic polymer in situ modified TiO2 for highly efficient photocatalytic hydrogen evolution[期刊论文],SCIENCE BULLETIN,2018-03-30
-
92. DOI
程元徽,李东明,石磊,向中华
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],Nano Energy,2018-03-07
-
93. DOI
Meng, Zhu;Li, Juntao;Huo, Feng;Huang, Yan;Xiang, Zhonghua
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-12-31
-
94. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
95. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
96. DOI
孟竹,黄燕,向中华,Juntao Li,Feng Huo
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],Chemical Engineering Science,2017-09-08
-
97. DOI
黄燕;李鼎;孟竹;周卓航;郭佳宁;程元徽;向中华
共价有机聚合物的合成及在燃料电池阴极氧还原反应中的应用[期刊论文],中国材料进展,2017-09-05
-
98. DOI
Guo, Jianing;Cheng, Yuanhui;Xiang, Zhonghua
Confined-Space-Assisted Preparation of Fe3O4-Nanoparticle-Modified Fe-N-C Catalysts Derived from a Covalent Organic Polymer for Oxygen Reduction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2017-09-01
-
99. DOI
Guo, Jianing;Li, Yang;Cheng, Yuanhui;Dai, Liming;Xiang, Zhonghua
Highly Efficient Oxygen Reduction Reaction Electrocatalysts Synthesized under Nanospace Confinement of Metal-Oganic Framework[期刊论文],ACS NANO,2017-08-01
-
100. DOI
Peng, Peng;Zhou, Zhuohang;Guo, Jianing;Xiang, Zhonghua
Well-Defined 2D Covalent Organic Polymers for Energy Electrocatalysis[期刊论文],ACS ENERGY LETTERS,2017-06-01
-
101. DOI
Cheng, Yuanhui;Guo, Jianing;Huang, Yan;Liao, Zhijian;Xiang, Zhonghua
Ultrastable hydrogen evolution electrocatalyst derived from phosphide postmodified metal-organic frameworks[期刊论文],NANO ENERGY,2017-05-01
-
102. DOI
Yang, Qingqing;Peng, Peng;Xiang, Zhonghua
Covalent organic polymer modified TiO2 nanosheets as highly efficient photocatalysts for hydrogen generation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-04-27
-
103. DOI
Xie,Chengpeng;Huo,Feng;Huang,Yan;Cheng,Yuanhui;Liu,Guangqing;Xiang,Zhonghua
Holey Graphitic Carbon Derived from Covalent Organic Polymers Impregnated with Nonprecious Metals for CO 2 Capture from Natural Gas[期刊论文],Particle and Particle Systems Characterization,2017-02-01
-
104. DOI
Xiang, Zhonghua;Zhu, Lin;Qi, Lei;Yan, Lu;Xue, Yuhua;Wang, Dan;Chen, Jian-Feng;Dai, Liming
Two-Dimensional Fully Conjugated Polymeric Photosensitizers for Advanced Photodynamic Therapy[期刊论文],CHEMISTRY OF MATERIALS,2016-12-13
-
105. DOI
Lu, Ke;Hu, Ziyu;Xiang, Zhonghua;Ma, Jizhen;Song, Bin;Zhang, Jintao;Ma, Houyi
Cation Intercalation in Manganese Oxide Nanosheets: Effects on Lithium and Sodium Storage[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2016-08-22
-
106. DOI
Xiang, Zhonghua;Dai, Quanbin;Chen, Jian-Feng;Dai, Liming
Edge Functionalization of Graphene and Two-Dimensional Covalent Organic Polymers for Energy Conversion and Storage[期刊论文],ADVANCED MATERIALS,2016-08-03
-
107. DOI
Fu, Yu'ang;Huang, Yan;Xiang, Zhonghua;Liu, Guangqing;Cao, Dapeng
Phosphorous-Nitrogen-Codoped Carbon Materials Derived from Metal-Organic Frameworks as Efficient Electrocatalysts for Oxygen Reduction Reactions[期刊论文],EUROPEAN JOURNAL OF INORGANIC CHEMISTRY,2016-05-01
-
108. DOI
Xiang, Zhonghua;Mercado, Rocio;Huck, Johanna M.;Wang, Hui;Guo, Zhanhu;Wang, Wenchuan;Cao, Dapeng;Haranczyk, Maciej;Smit, Berend
Systematic Tuning and Multifunctionalization of Covalent Organic Polymers for Enhanced Carbon Capture[期刊论文],JOURNAL OF THE AMERICAN CHEMICAL SOCIETY,2015-10-21
-
109. DOI
向中华
面向能源转化与存储应用的共价多孔骨架材料的可控制备[会议论文],2015年中国化工学会年会论文集,2015-10-17
-
110. DOI
Wan Gang;Fu Yu'ang;Guo Jianing;Xiang Zhonghua
Photoelectronic Porous Covalent Organic Materials: Research Progress and Perspective[期刊论文],ACTA CHIMICA SINICA,2015-06-15
-
111. DOI
Xiang, Zhonghua;Cao, Dapeng;Shao, Xiaohong;Wang, Wenchuan;Zhang, Jianwei;Wu, Weize
Facile preparation of high-capacity hydrogen storage metal-organic frameworks : A combination of microwave-assisted solvothermal synthesis and supercritical activation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2010-05-15
[+][-]
2024年
-
1. DOI
赵林杰,蔡奇峰,毛宝光,毛俊杰,董慧,向中华,朱嘉,Rajib Paul,王丹,龙永德,曲良体,鄢日清,Liming Dai,胡传刚
A universal approach to dual-metal-atom catalytic sites confined in carbon dots for various target reactions[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2023-10-24
-
2. DOI
Han, Linkai;Yu, Haifeng;Xiang, Zhonghua
Asymmetric Active Sites for Boosting Oxygen Evolution Reaction[期刊论文],Small,2023-10-11
-
3. DOI
Mi, Chunxia;Yu, Haifeng;Han, Linkai;Zhang, Lirong;Zhai, Lingling;Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Symmetric Electronic Structures of Active Sites to Boost Bifunctional Oxygen Electrocatalysis by MN4+4 Sites Directly from Initial Covalent Organic Polymers[期刊论文],Advanced Functional Materials,2023-09-05
-
4. DOI
Yang, Bolong;Yu, Xiaogang;Hou, Jingkui;Xiang, Zhonghua
Secondary reduction strategy synthesis of Pt–Co nanoparticle catalysts towards boosting the activity of proton exchange membrane fuel cells[期刊论文],Particuology,2023-08-01
-
5. DOI
Yang, Bolong;Yu, Haifeng;Jia, Xudong;Cheng, Qian;Ren, Yaoliang;He, Bing;Xiang, Zhonghua
Atomically Dispersed Isolated Fe-Ce Dual-Metal-Site Catalysts for Proton-Exchange Membrane Fuel Cells[期刊论文],ACS Applied Materials and Interfaces,2023-05-17
-
6. DOI
鲍春竹;向中华
非热解共价有机聚合物基氧还原电催化材料[期刊论文],高等学校化学学报,2023-05-10
-
7. DOI
Li, Xueli;Chen, Tengge;Yang, Bolong;Xiang, Zhonghua
Fundamental Understanding of Electronic Structure in FeN4 Site on Electrocatalytic Activity via dz2-Orbital-Driven Charge Tuning for Acidic Oxygen Reduction[期刊论文],Angewandte Chemie - International Edition,2023-04-11
-
8. DOI
Yang, Bolong;Han, Qing;Han, Linkai;Leng, Yiming;O'Carroll, Thomas;Yang, Xiaoxuan;Wu, Gang;Xiang, Zhonghua
Porous Covalent Organic Polymer Coordinated Single Co Site Nanofibers for Efficient Oxygen-Reduction Cathodes in Polymer Electrolyte Fuel Cells[期刊论文],Advanced Materials,2023-01-05
-
9. DOI
Yang, Bolong;Li, Bingjie;Xiang, Zhonghua
Advanced MOF-based electrode materials for supercapacitors and electrocatalytic oxygen reduction[期刊论文],Nano Research,2023-01-01
-
10. DOI
Guo, Bingran;Guo, Jianing;Yang, Wenlu;Tian, Xiyao;Wang, Xi;Xiang, Zhonghua;Wu, Mingxing
Highly dispersed iron/nickel dual-sites in hierarchical porous carbon materials as high-performance bifunctional oxygen electrocatalysts for Zn-air batteries[期刊论文],Renewable Energy,2022-12-01
-
11. DOI
韩清;向中华
质子交换膜燃料电池阴极梯度催化层的数值模拟[期刊论文],化学反应工程与工艺,2022-10-25
-
12. DOI
Leng, Yiming;Yang, Bolong;Zhao, Yun;Xiang, Zhonghua
Fluorinated bimetallic nanoparticles decorated carbon nanofibers as highly active and durable oxygen electrocatalyst for fuel cells[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-10-01
-
13. DOI
Wang, Qian;Meng, Zhu;Li, Juntao;Peng, Shuming;Xiang, Zhonghua
High retention volume covalent organic polymer for xenon capture: Dynamic separation of Xe and Kr[期刊论文],Green Energy and Environment,2022-10-01
-
14. DOI
Yang, Bolong;Li, Xueli;Cheng, Qian;Jia, Xudong;Liu, Yujia;Xiang, Zhonghua
A highly efficient axial coordinated CoN5 electrocatalyst via pyrolysis-free strategy for alkaline polymer electrolyte fuel cells[期刊论文],NANO ENERGY,2022-10-01
-
15. DOI
Wang, Yi-Fei;Xiang, Heng-Yang;Zhou, Yi-Hui;Li, Xue-Li;Wang, Run;Xu, Bo;Liu, Jun;Li, Wei-Jin;Xiang, Zhong-Hua;Zeng, Hai-Bo
Perovskite Light Emitting Diodes Using Covalent Organic Polymers as Hole Injection Layers[期刊论文],Faguang Xuebao/Chinese Journal of Luminescence,2022-10-01
-
16. DOI
Cheng, Qian;Yang, Bolong;Wu, Wenyi;Xiang, Zhonghua
S-doped Fe-N-C as Catalysts for Highly Reactive Oxygen Reduction Reactions[期刊论文],Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities,2022-09-10
-
17. DOI
Li, Xueli;Liu, Qingbin;Yang, Bolong;Liao, Zhijian;Yan, Wensheng;Xiang, Zhonghua
An Initial Covalent Organic Polymer with Closed-F Edges Directly for Proton-Exchange-Membrane Fuel Cells[期刊论文],ADVANCED MATERIALS,2022-09-01
-
18. DOI
Zhao, Yun;Yu, Xiaogang;Wen, Xin;Luo, Yong;Xiang, Zhonghua;Chen, Jian-feng
HiGee strategy towards large-scale synthesis of soluble covalent organic frameworks[期刊论文],AIChE Journal,2022-08-25
-
19. DOI
谢宇新,余小刚,靳昭行,刘庆彬,赵云,向中华
Dual-template strategy synthesis of hierarchically porous electrocatalysts for oxygen reduction reaction[期刊论文],Advanced Sensor and Energy Materials,2022-06-06
-
20. DOI
Li, Xueli;Liu, Di;Liu, Qingbin;Xiang, Zhonghua
A Pyrolysis-Free Method Toward Large-Scale Synthesis of Ultra-Highly Efficient Bifunctional Oxygen Electrocatalyst for Zinc-Air Flow Batteries[期刊论文],Small,2022-05-26
-
21. DOI
Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Dithiine Bridged Phthalocyanine-Based Covalent Organic Frameworks for Highly Efficient Oxygen Reduction Reaction[期刊论文],Journal of Physical Chemistry C,2022-03-03
-
22. DOI
Cui, Juan;Leng, Yiming;Xiang, Zhonghua
FeNi co-doped electrocatalyst synthesized via binary ligand strategy as a bifunctional catalyst for Zn-air flow battery[期刊论文],Chemical Engineering Science,2022-01-16
-
23. DOI
Jiang, Minghang;Han, Linkai;Peng, Peng;Hu, Yi;Xiong, Yan;Mi, Chunxia;Tie, Zuoxiu;Xiang, Zhonghua;Jin, Zhong
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High-Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2022-01-12
-
24. DOI
李雪丽,向中华
Identifying the impact of the covalent-bonded carbon matrix to FeN4 sites for acidic oxygen reduction[期刊论文],Nature Communications,2022-01-06
-
25. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
26. DOI
Liu, Qingbin;Xu, Li;Liu, Shizhen;Xiang, Zhonghua
Binary ligand strategy toward interweaved encapsulation-nanotubes structured electrocatalyst for proton exchange membrane fuel cell[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-01-01
-
27. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
28. DOI
MInghang Jiang,Linkai Han,Peng Peng,Yi Hu,Yan Xiong,Chunxia Mi,向中华,金钟
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High- Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2021-12-21
-
29. DOI
Wu, Hao;Han, Linkai;Wang, Ni;Yun, Ling-Xia;Xiang, Zhonghua;Wang, Jie-Xin
Sodium laurate-assisted CeO2 nanoparticles as highly efficient and recyclable catalysts for cyanosilylation reaction[期刊论文],Applied Catalysis A: General,2021-11-25
-
30. DOI
Liu, Yaoyao;Yu, Haifeng;Shi, Chong;Xiang, Zhonghua
Localized electron density modulation in conjugated polymer nanosheets for boosting photocatalytic H-2 evolution[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2021-09-21
-
31. DOI
Zang, Ying;Mi, Chunxia;Wang, Rui;Chen, Hong;Peng, Peng;Xiang, Zhonghua;Zang, Shuang-Quan;Mak, Thomas C. W.
Pyrolysis-Free Synthesized Catalyst towards Acidic Oxygen Reduction by Deprotonation[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2021-09-13
-
32. DOI
Yang, Bolong;Han, Qing;Xiang, Zhonghua
Progress of membrane electrode structure and its design for proton exchange membrane fuel cell[期刊论文],Huagong Jinzhan/Chemical Industry and Engineering Progress,2021-09-05
-
33. DOI
Liu, Changfei;Liu, Yaoyao;Xiang, Zhonghua;Liu, Dahuan;Yang, Qingyuan
Bimetallic MOF-Derived Sulfides with Heterojunction Interfaces Synthesized for Photocatalytic Hydrogen Evolution[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2021-08-04
-
34. DOI
Liu, Yaoyao;Li, Bingjie;Xiang, Zhonghua
Pathways towards Boosting Solar-Driven Hydrogen Evolution of Conjugated Polymers[期刊论文],SMALL,2021-08-01
-
35. DOI
程元徽,周圣杰,王睿,高霞,张彦梅,向中华
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
36. DOI
Cheng, Yuanhui;Zhou, Shengjie;Wang, Rui;Gao, Xia;Zhang, Yanmei;Xiang, Zhonghua
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
37. DOI
Guo, Jianing;Li, Bingjie;Zhang, Qiyu;Liu, Qingtao;Wang, Zelin;Zhao, Yufei;Shui, Jianglan;Xiang, Zhonghua
Highly Accessible Atomically Dispersed Fe-N-x Sites Electrocatalyst for Proton-Exchange Membrane Fuel Cell[期刊论文],ADVANCED SCIENCE,2021-03-01
-
38. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xie, Lianhua;Liu, Yujia;Xiang, Zhonghua
A new steric tetra-imidazole for facile synthesis of high loading atomically dispersed FeN4 electrocatalysts[期刊论文],Nano Energy,2021-02-01
-
39. DOI
Guo, Jianing;Xiang, Zhonghua
Progress of metal macrocyclic compound-based oxygen reduction electrocatalysts[期刊论文],Huagong Xuebao/CIESC Journal,2021-01-01
-
40. DOI
向中华
非碳化共价有机聚合物材料的设计与能源催化[会议论文],第五届全国新能源与化工新材料学术会议--2020全国能量转换与存储材料学术研讨会摘要集,2020-10-15
-
41. DOI
赵云,张敏,文鑫,向中华
Microfluidic interface boosted synthesis of covalent organic polymer capsule[期刊论文],Green Chemical Engineering,2020-09-21
-
42. DOI
Gan, Jie;Hao, Chunyu;Guo, Jianing;Chen, Wenyao;Cao, Yueqiang;Luo, Wei;Huang, Zikun;Xiang, Zhonghua;Duan, Xuezhi;Zhou, Xinggui
How PM2.5 Affects Pt-Catalyzed Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-06-29
-
43. DOI
Zhao, Yun;Xiang, Zhonghua
Progress of microfluidic synthesis of metal/covalent organic frameworks[期刊论文],Huagong Xuebao/CIESC Journal,2020-06-01
-
44. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Pyrolysis-free approach towards synthesis of oxygen reduction electrocatalysts[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2020-05-15
-
45. DOI
郭佳宁,Huo Feng,程元徽,向中华
PAF-1 as oxygen tank to in-situ synthesize edge-exposed O-MoS2 for highly efficient hydrogen evolution[期刊论文],CATALYSIS TODAY,2020-05-01
-
46. DOI
Guo, Jianing;Huo, Feng;Cheng, Yuanhui;Xiang, Zhonghua
PAF-1 as oxygen tank to in -situ synthesize edge -exposed O-MoS 2 for highly efficient hydrogen evolution[会议论文],CATALYSIS TODAY,2020-05-01
-
47. DOI
赵云;向中华
微流控制备金属/共价有机框架功能材料研究进展[期刊论文],化工学报,2020-04-01
-
48. DOI
Li, Yang;Peng, Peng;Liao, Zhijian;Huo, Feng;Liu, Yujia;Shao, Xiaohong;Xiang, Zhonghua
Nitro-Group-Doped Fully Conjugated 2D Covalent Organic Polymers for Enhanced Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-03-09
-
49. DOI
Zhang, Weichao;Liu, Yujia;Luo, Yong;Xie, Chengpeng;Xiang, Zhonghua;Chen, Jian-Feng
HiGee Strategy toward Rapid Mass Production of Porous Covalent Organic Polymers with Superior Methane Deliverable Capacity[期刊论文],ADVANCED FUNCTIONAL MATERIALS,2020-03-01
-
50. DOI
Xia Zhenhai,向中华
Editorial: Catalysts for Clean Energy Conversion and Storage.[期刊论文],Frontiers in Materials,2020-02-21
-
51. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],FRONTIERS IN MATERIALS,2020-02-21
-
52. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],Frontiers in Materials,2020-02-21
-
53. DOI
Xu, Baolin;Qi, Shihan;Jin, Mengmeng;Cai, Xiaoyi;Lai, Linfei;Sun, Zhouting;Han, Xiaogang;Lin, Zifeng;Shao, Hui;Peng, Peng;Xiang, Zhonghua;ten Elshof, Johan E.;Tan, Rou;Liu, Chen;Zhang, Zhaoxi;Duan, Xiaochuan;Ma, Jianmin
2020 roadmap on two-dimensional materials for energy storage and conversion[期刊论文],CHINESE CHEMICAL LETTERS,2019-12-01
-
54. DOI
Jin, Liming;Guo, Xin;Gong, Ruiqi;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Zheng, Jim P.
Target-oriented electrode constructions toward ultra-fast and ultra-stable all-graphene lithium ion capacitors[期刊论文],ENERGY STORAGE MATERIALS,2019-12-01
-
55. DOI
Liu, Yaoyao;Xiang, Zhonghua
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2019-11-06
-
56. DOI
刘瑶瑶,向中华
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater.[期刊论文],ACS Applied Materials & Interfaces,2019-10-15
-
57. DOI
李阳,彭鹏,Huo Feng,Shao Xiaohong,向中华
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],Frontiers in Materials,2019-10-04
-
58. DOI
Li, Yang;Peng, Peng;Huo, Feng;Shao, Xiaohong;Xiang, Zhonghua
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],FRONTIERS IN MATERIALS,2019-10-04
-
59. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Soluble Covalent Organic Polymer for the Flexible Electrode of Supercapacitors[期刊论文],FRONTIERS IN MATERIALS,2019-10-02
-
60. DOI
Li, Yan;Chen, Junxiang;Huang, Junheng;Hou, Yang;Lei, Lecheng;Lin, Wanzhen;Lian, Yaping;Xiang Zhonghua;Yang, Huang-Hao;Wen, Zhenhai
Interfacial engineering of Ru-S-Sb/antimonene electrocatalysts for highly efficient electrolytic hydrogen generation in neutral electrolyte[期刊论文],CHEMICAL COMMUNICATIONS,2019-09-18
-
61. DOI
Cheng, Yuanhui;Guo, Yinjian;Zhang, Ningyuan;Tao, Shuo;Liao, Zhijian;Wang, Yalan;Xiang, Zhonghua
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],NANO ENERGY,2019-09-01
-
62. DOI
Cheng, Yuanhui;Zhang, Ningyuan;Wang, Qiuli;Guo, Yinjian;Tao, Shuo;Liao, Zhijian;Jiang, Peng;Xiang, Zhonghua
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],NANO ENERGY,2019-09-01
-
63. DOI
程元徽,郭银建,张宁远,陶硕,廖之建,王雅岚,向中华
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],Nano Energy,2019-07-10
-
64. DOI
程元徽,张宁远,王秋丽,郭银建,陶硕,廖之剑,姜鹏,向中华
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],Nano Energy,2019-06-13
-
65. DOI
Cheng, Yuanhui;Wang, Yalan;Wang, Qiuli;Liao, Zhijian;Zhang, Ningyuan;Guo, Yinjian;Xiang, Zhonghua
Hierarchically porous metal-free carbon with record high mass activity for oxygen reduction and Zn-air batteries[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-28
-
66. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: a 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-14
-
67. DOI
Liao, Zhijian;Wang, Yalan;Wang, Qiuli;Cheng, Yuanhui;Xiang, Zhonghua
Bimetal-phthalocyanine based covalent organic polymers for highly efficient oxygen electrode[期刊论文],APPLIED CATALYSIS B-ENVIRONMENTAL,2019-04-01
-
68. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xiang, Zhonghua
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
69. DOI
林欣欣,彭鹏,郭佳宁,向中华
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
70. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],Nanoscale,2019-01-07
-
71. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],NANOSCALE,2019-01-07
-
72. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],J. Energy Chem.,2019-01-01
-
73. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: A 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],J. Mater. Chem. A,2019-01-01
-
74. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2019-01-01
-
75. DOI
Zhao, Yun;Xiang, Zhonghua
Synthesis of zeolitic imidazolate frameworks in droplet microfluidic system[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2018-12-01
-
76. DOI
Shi, Lei;Qi, Ziyuan;Peng, Peng;Guo, Jianing;Wan, Gang;Cao, Dapeng;Xiang, Zhonghua
Pyrene-Based Covalent Organic Polymers for Enhanced Photovoltaic Performance and Solar-Driven Hydrogen Production[期刊论文],ACS APPLIED ENERGY MATERIALS,2018-12-01
-
77. DOI
赵云,廖芝建,向中华
Microfluidics for synthesis and morphology control of hierarchical porous covalent organic polymer monolith[期刊论文],CHEMICAL ENGINEERING SCIENCE,2018-10-19
-
78. DOI
赵云;向中华
液滴式微流控芯片制备沸石咪唑骨架材料[期刊论文],科学通报,2018-09-27
-
79. DOI
Guo, Jianing;Lin, Chun-Yu;Xia, Zhenhai;Xiang, Zhonghua
A Pyrolysis-Free Covalent Organic Polymer for Oxygen Reduction[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2018-09-17
-
80. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
81. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
82. DOI
Xiang, Zhonghua
Covalent organic polymers for electrocatalysis[会议论文],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2018-08-19
-
83. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
84. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
85. DOI
张伟超,程元徽,郭春帅,谢程鹏,向中华
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],Industrial & Engineering Chemistry Research,2018-07-19
-
86. DOI
Yang, Liu;Cheng, Daojian;Zeng, Xiaofei;Wan, Xin;Shui, Jianglan;Xiang, Zhonghua;Cao, Dapeng
Unveiling the high-activity origin of single-atom iron catalysts for oxygen reduction reaction[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2018-06-26
-
87. DOI
Shi, Lei;Peng, Peng;Xiang, Zhonghua
Controlled synthesis of porous nitrogen-doped carbon nanoshells for highly efficient oxygen reduction[期刊论文],REACTION CHEMISTRY & ENGINEERING,2018-06-01
-
88. DOI
Xu, Jing;Huo, Feng;Zhao, Yufei;Liu, Yaoyao;Yang, Qingqing;Cheng, Yuanhui;Min, Shixiong;Jin, Zhiliang;Xiang, Zhonghua
In-situ La doped Co3O4 as highly efficient photocatalyst for solar hydrogen generation[期刊论文],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018-05-03
-
89. DOI
Ma, Jizhen;Xiang, Zhonghua;Zhang, Jintao
Three-dimensional nitrogen and phosphorous Co-doped graphene aerogel electrocatalysts for efficient oxygen reduction reaction[期刊论文],SCIENCE CHINA-CHEMISTRY,2018-05-01
-
90. DOI
Cheng, Yuanhui;Li, Dongming;Shi, Lei;Xiang, Zhonghua
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],NANO ENERGY,2018-05-01
-
91. DOI
Zhou, Zhuohang;Peng, Peng;Xiang, Zhonghua
N-rich covalent organic polymer in situ modified TiO2 for highly efficient photocatalytic hydrogen evolution[期刊论文],SCIENCE BULLETIN,2018-03-30
-
92. DOI
程元徽,李东明,石磊,向中华
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],Nano Energy,2018-03-07
-
93. DOI
Meng, Zhu;Li, Juntao;Huo, Feng;Huang, Yan;Xiang, Zhonghua
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-12-31
-
94. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
95. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
96. DOI
孟竹,黄燕,向中华,Juntao Li,Feng Huo
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],Chemical Engineering Science,2017-09-08
-
97. DOI
黄燕;李鼎;孟竹;周卓航;郭佳宁;程元徽;向中华
共价有机聚合物的合成及在燃料电池阴极氧还原反应中的应用[期刊论文],中国材料进展,2017-09-05
-
98. DOI
Guo, Jianing;Cheng, Yuanhui;Xiang, Zhonghua
Confined-Space-Assisted Preparation of Fe3O4-Nanoparticle-Modified Fe-N-C Catalysts Derived from a Covalent Organic Polymer for Oxygen Reduction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2017-09-01
-
99. DOI
Guo, Jianing;Li, Yang;Cheng, Yuanhui;Dai, Liming;Xiang, Zhonghua
Highly Efficient Oxygen Reduction Reaction Electrocatalysts Synthesized under Nanospace Confinement of Metal-Oganic Framework[期刊论文],ACS NANO,2017-08-01
-
100. DOI
Peng, Peng;Zhou, Zhuohang;Guo, Jianing;Xiang, Zhonghua
Well-Defined 2D Covalent Organic Polymers for Energy Electrocatalysis[期刊论文],ACS ENERGY LETTERS,2017-06-01
-
101. DOI
Cheng, Yuanhui;Guo, Jianing;Huang, Yan;Liao, Zhijian;Xiang, Zhonghua
Ultrastable hydrogen evolution electrocatalyst derived from phosphide postmodified metal-organic frameworks[期刊论文],NANO ENERGY,2017-05-01
-
102. DOI
Yang, Qingqing;Peng, Peng;Xiang, Zhonghua
Covalent organic polymer modified TiO2 nanosheets as highly efficient photocatalysts for hydrogen generation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-04-27
-
103. DOI
Xie,Chengpeng;Huo,Feng;Huang,Yan;Cheng,Yuanhui;Liu,Guangqing;Xiang,Zhonghua
Holey Graphitic Carbon Derived from Covalent Organic Polymers Impregnated with Nonprecious Metals for CO 2 Capture from Natural Gas[期刊论文],Particle and Particle Systems Characterization,2017-02-01
-
104. DOI
Xiang, Zhonghua;Zhu, Lin;Qi, Lei;Yan, Lu;Xue, Yuhua;Wang, Dan;Chen, Jian-Feng;Dai, Liming
Two-Dimensional Fully Conjugated Polymeric Photosensitizers for Advanced Photodynamic Therapy[期刊论文],CHEMISTRY OF MATERIALS,2016-12-13
-
105. DOI
Lu, Ke;Hu, Ziyu;Xiang, Zhonghua;Ma, Jizhen;Song, Bin;Zhang, Jintao;Ma, Houyi
Cation Intercalation in Manganese Oxide Nanosheets: Effects on Lithium and Sodium Storage[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2016-08-22
-
106. DOI
Xiang, Zhonghua;Dai, Quanbin;Chen, Jian-Feng;Dai, Liming
Edge Functionalization of Graphene and Two-Dimensional Covalent Organic Polymers for Energy Conversion and Storage[期刊论文],ADVANCED MATERIALS,2016-08-03
-
107. DOI
Fu, Yu'ang;Huang, Yan;Xiang, Zhonghua;Liu, Guangqing;Cao, Dapeng
Phosphorous-Nitrogen-Codoped Carbon Materials Derived from Metal-Organic Frameworks as Efficient Electrocatalysts for Oxygen Reduction Reactions[期刊论文],EUROPEAN JOURNAL OF INORGANIC CHEMISTRY,2016-05-01
-
108. DOI
Xiang, Zhonghua;Mercado, Rocio;Huck, Johanna M.;Wang, Hui;Guo, Zhanhu;Wang, Wenchuan;Cao, Dapeng;Haranczyk, Maciej;Smit, Berend
Systematic Tuning and Multifunctionalization of Covalent Organic Polymers for Enhanced Carbon Capture[期刊论文],JOURNAL OF THE AMERICAN CHEMICAL SOCIETY,2015-10-21
-
109. DOI
向中华
面向能源转化与存储应用的共价多孔骨架材料的可控制备[会议论文],2015年中国化工学会年会论文集,2015-10-17
-
110. DOI
Wan Gang;Fu Yu'ang;Guo Jianing;Xiang Zhonghua
Photoelectronic Porous Covalent Organic Materials: Research Progress and Perspective[期刊论文],ACTA CHIMICA SINICA,2015-06-15
-
111. DOI
Xiang, Zhonghua;Cao, Dapeng;Shao, Xiaohong;Wang, Wenchuan;Zhang, Jianwei;Wu, Weize
Facile preparation of high-capacity hydrogen storage metal-organic frameworks : A combination of microwave-assisted solvothermal synthesis and supercritical activation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2010-05-15
[+][-]
2023年
-
1. DOI
赵林杰,蔡奇峰,毛宝光,毛俊杰,董慧,向中华,朱嘉,Rajib Paul,王丹,龙永德,曲良体,鄢日清,Liming Dai,胡传刚
A universal approach to dual-metal-atom catalytic sites confined in carbon dots for various target reactions[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2023-10-24
-
2. DOI
Han, Linkai;Yu, Haifeng;Xiang, Zhonghua
Asymmetric Active Sites for Boosting Oxygen Evolution Reaction[期刊论文],Small,2023-10-11
-
3. DOI
Mi, Chunxia;Yu, Haifeng;Han, Linkai;Zhang, Lirong;Zhai, Lingling;Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Symmetric Electronic Structures of Active Sites to Boost Bifunctional Oxygen Electrocatalysis by MN4+4 Sites Directly from Initial Covalent Organic Polymers[期刊论文],Advanced Functional Materials,2023-09-05
-
4. DOI
Yang, Bolong;Yu, Xiaogang;Hou, Jingkui;Xiang, Zhonghua
Secondary reduction strategy synthesis of Pt–Co nanoparticle catalysts towards boosting the activity of proton exchange membrane fuel cells[期刊论文],Particuology,2023-08-01
-
5. DOI
Yang, Bolong;Yu, Haifeng;Jia, Xudong;Cheng, Qian;Ren, Yaoliang;He, Bing;Xiang, Zhonghua
Atomically Dispersed Isolated Fe-Ce Dual-Metal-Site Catalysts for Proton-Exchange Membrane Fuel Cells[期刊论文],ACS Applied Materials and Interfaces,2023-05-17
-
6. DOI
鲍春竹;向中华
非热解共价有机聚合物基氧还原电催化材料[期刊论文],高等学校化学学报,2023-05-10
-
7. DOI
Li, Xueli;Chen, Tengge;Yang, Bolong;Xiang, Zhonghua
Fundamental Understanding of Electronic Structure in FeN4 Site on Electrocatalytic Activity via dz2-Orbital-Driven Charge Tuning for Acidic Oxygen Reduction[期刊论文],Angewandte Chemie - International Edition,2023-04-11
-
8. DOI
Yang, Bolong;Han, Qing;Han, Linkai;Leng, Yiming;O'Carroll, Thomas;Yang, Xiaoxuan;Wu, Gang;Xiang, Zhonghua
Porous Covalent Organic Polymer Coordinated Single Co Site Nanofibers for Efficient Oxygen-Reduction Cathodes in Polymer Electrolyte Fuel Cells[期刊论文],Advanced Materials,2023-01-05
-
9. DOI
Yang, Bolong;Li, Bingjie;Xiang, Zhonghua
Advanced MOF-based electrode materials for supercapacitors and electrocatalytic oxygen reduction[期刊论文],Nano Research,2023-01-01
-
10. DOI
Guo, Bingran;Guo, Jianing;Yang, Wenlu;Tian, Xiyao;Wang, Xi;Xiang, Zhonghua;Wu, Mingxing
Highly dispersed iron/nickel dual-sites in hierarchical porous carbon materials as high-performance bifunctional oxygen electrocatalysts for Zn-air batteries[期刊论文],Renewable Energy,2022-12-01
-
11. DOI
韩清;向中华
质子交换膜燃料电池阴极梯度催化层的数值模拟[期刊论文],化学反应工程与工艺,2022-10-25
-
12. DOI
Leng, Yiming;Yang, Bolong;Zhao, Yun;Xiang, Zhonghua
Fluorinated bimetallic nanoparticles decorated carbon nanofibers as highly active and durable oxygen electrocatalyst for fuel cells[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-10-01
-
13. DOI
Wang, Qian;Meng, Zhu;Li, Juntao;Peng, Shuming;Xiang, Zhonghua
High retention volume covalent organic polymer for xenon capture: Dynamic separation of Xe and Kr[期刊论文],Green Energy and Environment,2022-10-01
-
14. DOI
Yang, Bolong;Li, Xueli;Cheng, Qian;Jia, Xudong;Liu, Yujia;Xiang, Zhonghua
A highly efficient axial coordinated CoN5 electrocatalyst via pyrolysis-free strategy for alkaline polymer electrolyte fuel cells[期刊论文],NANO ENERGY,2022-10-01
-
15. DOI
Wang, Yi-Fei;Xiang, Heng-Yang;Zhou, Yi-Hui;Li, Xue-Li;Wang, Run;Xu, Bo;Liu, Jun;Li, Wei-Jin;Xiang, Zhong-Hua;Zeng, Hai-Bo
Perovskite Light Emitting Diodes Using Covalent Organic Polymers as Hole Injection Layers[期刊论文],Faguang Xuebao/Chinese Journal of Luminescence,2022-10-01
-
16. DOI
Cheng, Qian;Yang, Bolong;Wu, Wenyi;Xiang, Zhonghua
S-doped Fe-N-C as Catalysts for Highly Reactive Oxygen Reduction Reactions[期刊论文],Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities,2022-09-10
-
17. DOI
Li, Xueli;Liu, Qingbin;Yang, Bolong;Liao, Zhijian;Yan, Wensheng;Xiang, Zhonghua
An Initial Covalent Organic Polymer with Closed-F Edges Directly for Proton-Exchange-Membrane Fuel Cells[期刊论文],ADVANCED MATERIALS,2022-09-01
-
18. DOI
Zhao, Yun;Yu, Xiaogang;Wen, Xin;Luo, Yong;Xiang, Zhonghua;Chen, Jian-feng
HiGee strategy towards large-scale synthesis of soluble covalent organic frameworks[期刊论文],AIChE Journal,2022-08-25
-
19. DOI
谢宇新,余小刚,靳昭行,刘庆彬,赵云,向中华
Dual-template strategy synthesis of hierarchically porous electrocatalysts for oxygen reduction reaction[期刊论文],Advanced Sensor and Energy Materials,2022-06-06
-
20. DOI
Li, Xueli;Liu, Di;Liu, Qingbin;Xiang, Zhonghua
A Pyrolysis-Free Method Toward Large-Scale Synthesis of Ultra-Highly Efficient Bifunctional Oxygen Electrocatalyst for Zinc-Air Flow Batteries[期刊论文],Small,2022-05-26
-
21. DOI
Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Dithiine Bridged Phthalocyanine-Based Covalent Organic Frameworks for Highly Efficient Oxygen Reduction Reaction[期刊论文],Journal of Physical Chemistry C,2022-03-03
-
22. DOI
Cui, Juan;Leng, Yiming;Xiang, Zhonghua
FeNi co-doped electrocatalyst synthesized via binary ligand strategy as a bifunctional catalyst for Zn-air flow battery[期刊论文],Chemical Engineering Science,2022-01-16
-
23. DOI
Jiang, Minghang;Han, Linkai;Peng, Peng;Hu, Yi;Xiong, Yan;Mi, Chunxia;Tie, Zuoxiu;Xiang, Zhonghua;Jin, Zhong
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High-Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2022-01-12
-
24. DOI
李雪丽,向中华
Identifying the impact of the covalent-bonded carbon matrix to FeN4 sites for acidic oxygen reduction[期刊论文],Nature Communications,2022-01-06
-
25. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
26. DOI
Liu, Qingbin;Xu, Li;Liu, Shizhen;Xiang, Zhonghua
Binary ligand strategy toward interweaved encapsulation-nanotubes structured electrocatalyst for proton exchange membrane fuel cell[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-01-01
-
27. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
28. DOI
MInghang Jiang,Linkai Han,Peng Peng,Yi Hu,Yan Xiong,Chunxia Mi,向中华,金钟
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High- Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2021-12-21
-
29. DOI
Wu, Hao;Han, Linkai;Wang, Ni;Yun, Ling-Xia;Xiang, Zhonghua;Wang, Jie-Xin
Sodium laurate-assisted CeO2 nanoparticles as highly efficient and recyclable catalysts for cyanosilylation reaction[期刊论文],Applied Catalysis A: General,2021-11-25
-
30. DOI
Liu, Yaoyao;Yu, Haifeng;Shi, Chong;Xiang, Zhonghua
Localized electron density modulation in conjugated polymer nanosheets for boosting photocatalytic H-2 evolution[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2021-09-21
-
31. DOI
Zang, Ying;Mi, Chunxia;Wang, Rui;Chen, Hong;Peng, Peng;Xiang, Zhonghua;Zang, Shuang-Quan;Mak, Thomas C. W.
Pyrolysis-Free Synthesized Catalyst towards Acidic Oxygen Reduction by Deprotonation[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2021-09-13
-
32. DOI
Yang, Bolong;Han, Qing;Xiang, Zhonghua
Progress of membrane electrode structure and its design for proton exchange membrane fuel cell[期刊论文],Huagong Jinzhan/Chemical Industry and Engineering Progress,2021-09-05
-
33. DOI
Liu, Changfei;Liu, Yaoyao;Xiang, Zhonghua;Liu, Dahuan;Yang, Qingyuan
Bimetallic MOF-Derived Sulfides with Heterojunction Interfaces Synthesized for Photocatalytic Hydrogen Evolution[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2021-08-04
-
34. DOI
Liu, Yaoyao;Li, Bingjie;Xiang, Zhonghua
Pathways towards Boosting Solar-Driven Hydrogen Evolution of Conjugated Polymers[期刊论文],SMALL,2021-08-01
-
35. DOI
程元徽,周圣杰,王睿,高霞,张彦梅,向中华
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
36. DOI
Cheng, Yuanhui;Zhou, Shengjie;Wang, Rui;Gao, Xia;Zhang, Yanmei;Xiang, Zhonghua
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
37. DOI
Guo, Jianing;Li, Bingjie;Zhang, Qiyu;Liu, Qingtao;Wang, Zelin;Zhao, Yufei;Shui, Jianglan;Xiang, Zhonghua
Highly Accessible Atomically Dispersed Fe-N-x Sites Electrocatalyst for Proton-Exchange Membrane Fuel Cell[期刊论文],ADVANCED SCIENCE,2021-03-01
-
38. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xie, Lianhua;Liu, Yujia;Xiang, Zhonghua
A new steric tetra-imidazole for facile synthesis of high loading atomically dispersed FeN4 electrocatalysts[期刊论文],Nano Energy,2021-02-01
-
39. DOI
Guo, Jianing;Xiang, Zhonghua
Progress of metal macrocyclic compound-based oxygen reduction electrocatalysts[期刊论文],Huagong Xuebao/CIESC Journal,2021-01-01
-
40. DOI
向中华
非碳化共价有机聚合物材料的设计与能源催化[会议论文],第五届全国新能源与化工新材料学术会议--2020全国能量转换与存储材料学术研讨会摘要集,2020-10-15
-
41. DOI
赵云,张敏,文鑫,向中华
Microfluidic interface boosted synthesis of covalent organic polymer capsule[期刊论文],Green Chemical Engineering,2020-09-21
-
42. DOI
Gan, Jie;Hao, Chunyu;Guo, Jianing;Chen, Wenyao;Cao, Yueqiang;Luo, Wei;Huang, Zikun;Xiang, Zhonghua;Duan, Xuezhi;Zhou, Xinggui
How PM2.5 Affects Pt-Catalyzed Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-06-29
-
43. DOI
Zhao, Yun;Xiang, Zhonghua
Progress of microfluidic synthesis of metal/covalent organic frameworks[期刊论文],Huagong Xuebao/CIESC Journal,2020-06-01
-
44. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Pyrolysis-free approach towards synthesis of oxygen reduction electrocatalysts[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2020-05-15
-
45. DOI
郭佳宁,Huo Feng,程元徽,向中华
PAF-1 as oxygen tank to in-situ synthesize edge-exposed O-MoS2 for highly efficient hydrogen evolution[期刊论文],CATALYSIS TODAY,2020-05-01
-
46. DOI
Guo, Jianing;Huo, Feng;Cheng, Yuanhui;Xiang, Zhonghua
PAF-1 as oxygen tank to in -situ synthesize edge -exposed O-MoS 2 for highly efficient hydrogen evolution[会议论文],CATALYSIS TODAY,2020-05-01
-
47. DOI
赵云;向中华
微流控制备金属/共价有机框架功能材料研究进展[期刊论文],化工学报,2020-04-01
-
48. DOI
Li, Yang;Peng, Peng;Liao, Zhijian;Huo, Feng;Liu, Yujia;Shao, Xiaohong;Xiang, Zhonghua
Nitro-Group-Doped Fully Conjugated 2D Covalent Organic Polymers for Enhanced Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-03-09
-
49. DOI
Zhang, Weichao;Liu, Yujia;Luo, Yong;Xie, Chengpeng;Xiang, Zhonghua;Chen, Jian-Feng
HiGee Strategy toward Rapid Mass Production of Porous Covalent Organic Polymers with Superior Methane Deliverable Capacity[期刊论文],ADVANCED FUNCTIONAL MATERIALS,2020-03-01
-
50. DOI
Xia Zhenhai,向中华
Editorial: Catalysts for Clean Energy Conversion and Storage.[期刊论文],Frontiers in Materials,2020-02-21
-
51. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],FRONTIERS IN MATERIALS,2020-02-21
-
52. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],Frontiers in Materials,2020-02-21
-
53. DOI
Xu, Baolin;Qi, Shihan;Jin, Mengmeng;Cai, Xiaoyi;Lai, Linfei;Sun, Zhouting;Han, Xiaogang;Lin, Zifeng;Shao, Hui;Peng, Peng;Xiang, Zhonghua;ten Elshof, Johan E.;Tan, Rou;Liu, Chen;Zhang, Zhaoxi;Duan, Xiaochuan;Ma, Jianmin
2020 roadmap on two-dimensional materials for energy storage and conversion[期刊论文],CHINESE CHEMICAL LETTERS,2019-12-01
-
54. DOI
Jin, Liming;Guo, Xin;Gong, Ruiqi;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Zheng, Jim P.
Target-oriented electrode constructions toward ultra-fast and ultra-stable all-graphene lithium ion capacitors[期刊论文],ENERGY STORAGE MATERIALS,2019-12-01
-
55. DOI
Liu, Yaoyao;Xiang, Zhonghua
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2019-11-06
-
56. DOI
刘瑶瑶,向中华
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater.[期刊论文],ACS Applied Materials & Interfaces,2019-10-15
-
57. DOI
李阳,彭鹏,Huo Feng,Shao Xiaohong,向中华
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],Frontiers in Materials,2019-10-04
-
58. DOI
Li, Yang;Peng, Peng;Huo, Feng;Shao, Xiaohong;Xiang, Zhonghua
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],FRONTIERS IN MATERIALS,2019-10-04
-
59. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Soluble Covalent Organic Polymer for the Flexible Electrode of Supercapacitors[期刊论文],FRONTIERS IN MATERIALS,2019-10-02
-
60. DOI
Li, Yan;Chen, Junxiang;Huang, Junheng;Hou, Yang;Lei, Lecheng;Lin, Wanzhen;Lian, Yaping;Xiang Zhonghua;Yang, Huang-Hao;Wen, Zhenhai
Interfacial engineering of Ru-S-Sb/antimonene electrocatalysts for highly efficient electrolytic hydrogen generation in neutral electrolyte[期刊论文],CHEMICAL COMMUNICATIONS,2019-09-18
-
61. DOI
Cheng, Yuanhui;Guo, Yinjian;Zhang, Ningyuan;Tao, Shuo;Liao, Zhijian;Wang, Yalan;Xiang, Zhonghua
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],NANO ENERGY,2019-09-01
-
62. DOI
Cheng, Yuanhui;Zhang, Ningyuan;Wang, Qiuli;Guo, Yinjian;Tao, Shuo;Liao, Zhijian;Jiang, Peng;Xiang, Zhonghua
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],NANO ENERGY,2019-09-01
-
63. DOI
程元徽,郭银建,张宁远,陶硕,廖之建,王雅岚,向中华
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],Nano Energy,2019-07-10
-
64. DOI
程元徽,张宁远,王秋丽,郭银建,陶硕,廖之剑,姜鹏,向中华
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],Nano Energy,2019-06-13
-
65. DOI
Cheng, Yuanhui;Wang, Yalan;Wang, Qiuli;Liao, Zhijian;Zhang, Ningyuan;Guo, Yinjian;Xiang, Zhonghua
Hierarchically porous metal-free carbon with record high mass activity for oxygen reduction and Zn-air batteries[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-28
-
66. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: a 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-14
-
67. DOI
Liao, Zhijian;Wang, Yalan;Wang, Qiuli;Cheng, Yuanhui;Xiang, Zhonghua
Bimetal-phthalocyanine based covalent organic polymers for highly efficient oxygen electrode[期刊论文],APPLIED CATALYSIS B-ENVIRONMENTAL,2019-04-01
-
68. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xiang, Zhonghua
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
69. DOI
林欣欣,彭鹏,郭佳宁,向中华
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
70. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],Nanoscale,2019-01-07
-
71. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],NANOSCALE,2019-01-07
-
72. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],J. Energy Chem.,2019-01-01
-
73. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: A 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],J. Mater. Chem. A,2019-01-01
-
74. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2019-01-01
-
75. DOI
Zhao, Yun;Xiang, Zhonghua
Synthesis of zeolitic imidazolate frameworks in droplet microfluidic system[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2018-12-01
-
76. DOI
Shi, Lei;Qi, Ziyuan;Peng, Peng;Guo, Jianing;Wan, Gang;Cao, Dapeng;Xiang, Zhonghua
Pyrene-Based Covalent Organic Polymers for Enhanced Photovoltaic Performance and Solar-Driven Hydrogen Production[期刊论文],ACS APPLIED ENERGY MATERIALS,2018-12-01
-
77. DOI
赵云,廖芝建,向中华
Microfluidics for synthesis and morphology control of hierarchical porous covalent organic polymer monolith[期刊论文],CHEMICAL ENGINEERING SCIENCE,2018-10-19
-
78. DOI
赵云;向中华
液滴式微流控芯片制备沸石咪唑骨架材料[期刊论文],科学通报,2018-09-27
-
79. DOI
Guo, Jianing;Lin, Chun-Yu;Xia, Zhenhai;Xiang, Zhonghua
A Pyrolysis-Free Covalent Organic Polymer for Oxygen Reduction[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2018-09-17
-
80. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
81. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
82. DOI
Xiang, Zhonghua
Covalent organic polymers for electrocatalysis[会议论文],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2018-08-19
-
83. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
84. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
85. DOI
张伟超,程元徽,郭春帅,谢程鹏,向中华
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],Industrial & Engineering Chemistry Research,2018-07-19
-
86. DOI
Yang, Liu;Cheng, Daojian;Zeng, Xiaofei;Wan, Xin;Shui, Jianglan;Xiang, Zhonghua;Cao, Dapeng
Unveiling the high-activity origin of single-atom iron catalysts for oxygen reduction reaction[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2018-06-26
-
87. DOI
Shi, Lei;Peng, Peng;Xiang, Zhonghua
Controlled synthesis of porous nitrogen-doped carbon nanoshells for highly efficient oxygen reduction[期刊论文],REACTION CHEMISTRY & ENGINEERING,2018-06-01
-
88. DOI
Xu, Jing;Huo, Feng;Zhao, Yufei;Liu, Yaoyao;Yang, Qingqing;Cheng, Yuanhui;Min, Shixiong;Jin, Zhiliang;Xiang, Zhonghua
In-situ La doped Co3O4 as highly efficient photocatalyst for solar hydrogen generation[期刊论文],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018-05-03
-
89. DOI
Ma, Jizhen;Xiang, Zhonghua;Zhang, Jintao
Three-dimensional nitrogen and phosphorous Co-doped graphene aerogel electrocatalysts for efficient oxygen reduction reaction[期刊论文],SCIENCE CHINA-CHEMISTRY,2018-05-01
-
90. DOI
Cheng, Yuanhui;Li, Dongming;Shi, Lei;Xiang, Zhonghua
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],NANO ENERGY,2018-05-01
-
91. DOI
Zhou, Zhuohang;Peng, Peng;Xiang, Zhonghua
N-rich covalent organic polymer in situ modified TiO2 for highly efficient photocatalytic hydrogen evolution[期刊论文],SCIENCE BULLETIN,2018-03-30
-
92. DOI
程元徽,李东明,石磊,向中华
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],Nano Energy,2018-03-07
-
93. DOI
Meng, Zhu;Li, Juntao;Huo, Feng;Huang, Yan;Xiang, Zhonghua
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-12-31
-
94. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
95. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
96. DOI
孟竹,黄燕,向中华,Juntao Li,Feng Huo
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],Chemical Engineering Science,2017-09-08
-
97. DOI
黄燕;李鼎;孟竹;周卓航;郭佳宁;程元徽;向中华
共价有机聚合物的合成及在燃料电池阴极氧还原反应中的应用[期刊论文],中国材料进展,2017-09-05
-
98. DOI
Guo, Jianing;Cheng, Yuanhui;Xiang, Zhonghua
Confined-Space-Assisted Preparation of Fe3O4-Nanoparticle-Modified Fe-N-C Catalysts Derived from a Covalent Organic Polymer for Oxygen Reduction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2017-09-01
-
99. DOI
Guo, Jianing;Li, Yang;Cheng, Yuanhui;Dai, Liming;Xiang, Zhonghua
Highly Efficient Oxygen Reduction Reaction Electrocatalysts Synthesized under Nanospace Confinement of Metal-Oganic Framework[期刊论文],ACS NANO,2017-08-01
-
100. DOI
Peng, Peng;Zhou, Zhuohang;Guo, Jianing;Xiang, Zhonghua
Well-Defined 2D Covalent Organic Polymers for Energy Electrocatalysis[期刊论文],ACS ENERGY LETTERS,2017-06-01
-
101. DOI
Cheng, Yuanhui;Guo, Jianing;Huang, Yan;Liao, Zhijian;Xiang, Zhonghua
Ultrastable hydrogen evolution electrocatalyst derived from phosphide postmodified metal-organic frameworks[期刊论文],NANO ENERGY,2017-05-01
-
102. DOI
Yang, Qingqing;Peng, Peng;Xiang, Zhonghua
Covalent organic polymer modified TiO2 nanosheets as highly efficient photocatalysts for hydrogen generation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-04-27
-
103. DOI
Xie,Chengpeng;Huo,Feng;Huang,Yan;Cheng,Yuanhui;Liu,Guangqing;Xiang,Zhonghua
Holey Graphitic Carbon Derived from Covalent Organic Polymers Impregnated with Nonprecious Metals for CO 2 Capture from Natural Gas[期刊论文],Particle and Particle Systems Characterization,2017-02-01
-
104. DOI
Xiang, Zhonghua;Zhu, Lin;Qi, Lei;Yan, Lu;Xue, Yuhua;Wang, Dan;Chen, Jian-Feng;Dai, Liming
Two-Dimensional Fully Conjugated Polymeric Photosensitizers for Advanced Photodynamic Therapy[期刊论文],CHEMISTRY OF MATERIALS,2016-12-13
-
105. DOI
Lu, Ke;Hu, Ziyu;Xiang, Zhonghua;Ma, Jizhen;Song, Bin;Zhang, Jintao;Ma, Houyi
Cation Intercalation in Manganese Oxide Nanosheets: Effects on Lithium and Sodium Storage[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2016-08-22
-
106. DOI
Xiang, Zhonghua;Dai, Quanbin;Chen, Jian-Feng;Dai, Liming
Edge Functionalization of Graphene and Two-Dimensional Covalent Organic Polymers for Energy Conversion and Storage[期刊论文],ADVANCED MATERIALS,2016-08-03
-
107. DOI
Fu, Yu'ang;Huang, Yan;Xiang, Zhonghua;Liu, Guangqing;Cao, Dapeng
Phosphorous-Nitrogen-Codoped Carbon Materials Derived from Metal-Organic Frameworks as Efficient Electrocatalysts for Oxygen Reduction Reactions[期刊论文],EUROPEAN JOURNAL OF INORGANIC CHEMISTRY,2016-05-01
-
108. DOI
Xiang, Zhonghua;Mercado, Rocio;Huck, Johanna M.;Wang, Hui;Guo, Zhanhu;Wang, Wenchuan;Cao, Dapeng;Haranczyk, Maciej;Smit, Berend
Systematic Tuning and Multifunctionalization of Covalent Organic Polymers for Enhanced Carbon Capture[期刊论文],JOURNAL OF THE AMERICAN CHEMICAL SOCIETY,2015-10-21
-
109. DOI
向中华
面向能源转化与存储应用的共价多孔骨架材料的可控制备[会议论文],2015年中国化工学会年会论文集,2015-10-17
-
110. DOI
Wan Gang;Fu Yu'ang;Guo Jianing;Xiang Zhonghua
Photoelectronic Porous Covalent Organic Materials: Research Progress and Perspective[期刊论文],ACTA CHIMICA SINICA,2015-06-15
-
111. DOI
Xiang, Zhonghua;Cao, Dapeng;Shao, Xiaohong;Wang, Wenchuan;Zhang, Jianwei;Wu, Weize
Facile preparation of high-capacity hydrogen storage metal-organic frameworks : A combination of microwave-assisted solvothermal synthesis and supercritical activation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2010-05-15
[+][-]2023年之前
-
1. DOI
赵林杰,蔡奇峰,毛宝光,毛俊杰,董慧,向中华,朱嘉,Rajib Paul,王丹,龙永德,曲良体,鄢日清,Liming Dai,胡传刚
A universal approach to dual-metal-atom catalytic sites confined in carbon dots for various target reactions[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2023-10-24
-
2. DOI
Han, Linkai;Yu, Haifeng;Xiang, Zhonghua
Asymmetric Active Sites for Boosting Oxygen Evolution Reaction[期刊论文],Small,2023-10-11
-
3. DOI
Mi, Chunxia;Yu, Haifeng;Han, Linkai;Zhang, Lirong;Zhai, Lingling;Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Symmetric Electronic Structures of Active Sites to Boost Bifunctional Oxygen Electrocatalysis by MN4+4 Sites Directly from Initial Covalent Organic Polymers[期刊论文],Advanced Functional Materials,2023-09-05
-
4. DOI
Yang, Bolong;Yu, Xiaogang;Hou, Jingkui;Xiang, Zhonghua
Secondary reduction strategy synthesis of Pt–Co nanoparticle catalysts towards boosting the activity of proton exchange membrane fuel cells[期刊论文],Particuology,2023-08-01
-
5. DOI
Yang, Bolong;Yu, Haifeng;Jia, Xudong;Cheng, Qian;Ren, Yaoliang;He, Bing;Xiang, Zhonghua
Atomically Dispersed Isolated Fe-Ce Dual-Metal-Site Catalysts for Proton-Exchange Membrane Fuel Cells[期刊论文],ACS Applied Materials and Interfaces,2023-05-17
-
6. DOI
鲍春竹;向中华
非热解共价有机聚合物基氧还原电催化材料[期刊论文],高等学校化学学报,2023-05-10
-
7. DOI
Li, Xueli;Chen, Tengge;Yang, Bolong;Xiang, Zhonghua
Fundamental Understanding of Electronic Structure in FeN4 Site on Electrocatalytic Activity via dz2-Orbital-Driven Charge Tuning for Acidic Oxygen Reduction[期刊论文],Angewandte Chemie - International Edition,2023-04-11
-
8. DOI
Yang, Bolong;Han, Qing;Han, Linkai;Leng, Yiming;O'Carroll, Thomas;Yang, Xiaoxuan;Wu, Gang;Xiang, Zhonghua
Porous Covalent Organic Polymer Coordinated Single Co Site Nanofibers for Efficient Oxygen-Reduction Cathodes in Polymer Electrolyte Fuel Cells[期刊论文],Advanced Materials,2023-01-05
-
9. DOI
Yang, Bolong;Li, Bingjie;Xiang, Zhonghua
Advanced MOF-based electrode materials for supercapacitors and electrocatalytic oxygen reduction[期刊论文],Nano Research,2023-01-01
-
10. DOI
Guo, Bingran;Guo, Jianing;Yang, Wenlu;Tian, Xiyao;Wang, Xi;Xiang, Zhonghua;Wu, Mingxing
Highly dispersed iron/nickel dual-sites in hierarchical porous carbon materials as high-performance bifunctional oxygen electrocatalysts for Zn-air batteries[期刊论文],Renewable Energy,2022-12-01
-
11. DOI
韩清;向中华
质子交换膜燃料电池阴极梯度催化层的数值模拟[期刊论文],化学反应工程与工艺,2022-10-25
-
12. DOI
Leng, Yiming;Yang, Bolong;Zhao, Yun;Xiang, Zhonghua
Fluorinated bimetallic nanoparticles decorated carbon nanofibers as highly active and durable oxygen electrocatalyst for fuel cells[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-10-01
-
13. DOI
Wang, Qian;Meng, Zhu;Li, Juntao;Peng, Shuming;Xiang, Zhonghua
High retention volume covalent organic polymer for xenon capture: Dynamic separation of Xe and Kr[期刊论文],Green Energy and Environment,2022-10-01
-
14. DOI
Yang, Bolong;Li, Xueli;Cheng, Qian;Jia, Xudong;Liu, Yujia;Xiang, Zhonghua
A highly efficient axial coordinated CoN5 electrocatalyst via pyrolysis-free strategy for alkaline polymer electrolyte fuel cells[期刊论文],NANO ENERGY,2022-10-01
-
15. DOI
Wang, Yi-Fei;Xiang, Heng-Yang;Zhou, Yi-Hui;Li, Xue-Li;Wang, Run;Xu, Bo;Liu, Jun;Li, Wei-Jin;Xiang, Zhong-Hua;Zeng, Hai-Bo
Perovskite Light Emitting Diodes Using Covalent Organic Polymers as Hole Injection Layers[期刊论文],Faguang Xuebao/Chinese Journal of Luminescence,2022-10-01
-
16. DOI
Cheng, Qian;Yang, Bolong;Wu, Wenyi;Xiang, Zhonghua
S-doped Fe-N-C as Catalysts for Highly Reactive Oxygen Reduction Reactions[期刊论文],Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities,2022-09-10
-
17. DOI
Li, Xueli;Liu, Qingbin;Yang, Bolong;Liao, Zhijian;Yan, Wensheng;Xiang, Zhonghua
An Initial Covalent Organic Polymer with Closed-F Edges Directly for Proton-Exchange-Membrane Fuel Cells[期刊论文],ADVANCED MATERIALS,2022-09-01
-
18. DOI
Zhao, Yun;Yu, Xiaogang;Wen, Xin;Luo, Yong;Xiang, Zhonghua;Chen, Jian-feng
HiGee strategy towards large-scale synthesis of soluble covalent organic frameworks[期刊论文],AIChE Journal,2022-08-25
-
19. DOI
谢宇新,余小刚,靳昭行,刘庆彬,赵云,向中华
Dual-template strategy synthesis of hierarchically porous electrocatalysts for oxygen reduction reaction[期刊论文],Advanced Sensor and Energy Materials,2022-06-06
-
20. DOI
Li, Xueli;Liu, Di;Liu, Qingbin;Xiang, Zhonghua
A Pyrolysis-Free Method Toward Large-Scale Synthesis of Ultra-Highly Efficient Bifunctional Oxygen Electrocatalyst for Zinc-Air Flow Batteries[期刊论文],Small,2022-05-26
-
21. DOI
Li, Xueli;Liu, Yujia;Xiang, Zhonghua
Dithiine Bridged Phthalocyanine-Based Covalent Organic Frameworks for Highly Efficient Oxygen Reduction Reaction[期刊论文],Journal of Physical Chemistry C,2022-03-03
-
22. DOI
Cui, Juan;Leng, Yiming;Xiang, Zhonghua
FeNi co-doped electrocatalyst synthesized via binary ligand strategy as a bifunctional catalyst for Zn-air flow battery[期刊论文],Chemical Engineering Science,2022-01-16
-
23. DOI
Jiang, Minghang;Han, Linkai;Peng, Peng;Hu, Yi;Xiong, Yan;Mi, Chunxia;Tie, Zuoxiu;Xiang, Zhonghua;Jin, Zhong
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High-Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2022-01-12
-
24. DOI
李雪丽,向中华
Identifying the impact of the covalent-bonded carbon matrix to FeN4 sites for acidic oxygen reduction[期刊论文],Nature Communications,2022-01-06
-
25. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
26. DOI
Liu, Qingbin;Xu, Li;Liu, Shizhen;Xiang, Zhonghua
Binary ligand strategy toward interweaved encapsulation-nanotubes structured electrocatalyst for proton exchange membrane fuel cell[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2022-01-01
-
27. DOI
Zhang, Min;Yang, Bolong;Yang, Ting;Yang, Yahui;Xiang, Zhonghua
A ferric citrate derived Fe-N-C electrocatalyst with stepwise pyrolysis for highly efficient oxygen reduction reaction[期刊论文],CHINESE CHEMICAL LETTERS,2022-01-01
-
28. DOI
MInghang Jiang,Linkai Han,Peng Peng,Yi Hu,Yan Xiong,Chunxia Mi,向中华,金钟
Quasi-Phthalocyanine Conjugated Covalent Organic Frameworks with Nitrogen-Coordinated Transition Metal Centers for High- Efficiency Electrocatalytic Ammonia Synthesis[期刊论文],Nano Letters,2021-12-21
-
29. DOI
Wu, Hao;Han, Linkai;Wang, Ni;Yun, Ling-Xia;Xiang, Zhonghua;Wang, Jie-Xin
Sodium laurate-assisted CeO2 nanoparticles as highly efficient and recyclable catalysts for cyanosilylation reaction[期刊论文],Applied Catalysis A: General,2021-11-25
-
30. DOI
Liu, Yaoyao;Yu, Haifeng;Shi, Chong;Xiang, Zhonghua
Localized electron density modulation in conjugated polymer nanosheets for boosting photocatalytic H-2 evolution[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2021-09-21
-
31. DOI
Zang, Ying;Mi, Chunxia;Wang, Rui;Chen, Hong;Peng, Peng;Xiang, Zhonghua;Zang, Shuang-Quan;Mak, Thomas C. W.
Pyrolysis-Free Synthesized Catalyst towards Acidic Oxygen Reduction by Deprotonation[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2021-09-13
-
32. DOI
Yang, Bolong;Han, Qing;Xiang, Zhonghua
Progress of membrane electrode structure and its design for proton exchange membrane fuel cell[期刊论文],Huagong Jinzhan/Chemical Industry and Engineering Progress,2021-09-05
-
33. DOI
Liu, Changfei;Liu, Yaoyao;Xiang, Zhonghua;Liu, Dahuan;Yang, Qingyuan
Bimetallic MOF-Derived Sulfides with Heterojunction Interfaces Synthesized for Photocatalytic Hydrogen Evolution[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2021-08-04
-
34. DOI
Liu, Yaoyao;Li, Bingjie;Xiang, Zhonghua
Pathways towards Boosting Solar-Driven Hydrogen Evolution of Conjugated Polymers[期刊论文],SMALL,2021-08-01
-
35. DOI
程元徽,周圣杰,王睿,高霞,张彦梅,向中华
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
36. DOI
Cheng, Yuanhui;Zhou, Shengjie;Wang, Rui;Gao, Xia;Zhang, Yanmei;Xiang, Zhonghua
A superior unitary oxygen electrode with accelerated mass transfer and highly exposed active sites for rechargeable air-based batteries[期刊论文],JOURNAL OF POWER SOURCES,2021-03-15
-
37. DOI
Guo, Jianing;Li, Bingjie;Zhang, Qiyu;Liu, Qingtao;Wang, Zelin;Zhao, Yufei;Shui, Jianglan;Xiang, Zhonghua
Highly Accessible Atomically Dispersed Fe-N-x Sites Electrocatalyst for Proton-Exchange Membrane Fuel Cell[期刊论文],ADVANCED SCIENCE,2021-03-01
-
38. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xie, Lianhua;Liu, Yujia;Xiang, Zhonghua
A new steric tetra-imidazole for facile synthesis of high loading atomically dispersed FeN4 electrocatalysts[期刊论文],Nano Energy,2021-02-01
-
39. DOI
Guo, Jianing;Xiang, Zhonghua
Progress of metal macrocyclic compound-based oxygen reduction electrocatalysts[期刊论文],Huagong Xuebao/CIESC Journal,2021-01-01
-
40. DOI
向中华
非碳化共价有机聚合物材料的设计与能源催化[会议论文],第五届全国新能源与化工新材料学术会议--2020全国能量转换与存储材料学术研讨会摘要集,2020-10-15
-
41. DOI
赵云,张敏,文鑫,向中华
Microfluidic interface boosted synthesis of covalent organic polymer capsule[期刊论文],Green Chemical Engineering,2020-09-21
-
42. DOI
Gan, Jie;Hao, Chunyu;Guo, Jianing;Chen, Wenyao;Cao, Yueqiang;Luo, Wei;Huang, Zikun;Xiang, Zhonghua;Duan, Xuezhi;Zhou, Xinggui
How PM2.5 Affects Pt-Catalyzed Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-06-29
-
43. DOI
Zhao, Yun;Xiang, Zhonghua
Progress of microfluidic synthesis of metal/covalent organic frameworks[期刊论文],Huagong Xuebao/CIESC Journal,2020-06-01
-
44. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Pyrolysis-free approach towards synthesis of oxygen reduction electrocatalysts[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2020-05-15
-
45. DOI
郭佳宁,Huo Feng,程元徽,向中华
PAF-1 as oxygen tank to in-situ synthesize edge-exposed O-MoS2 for highly efficient hydrogen evolution[期刊论文],CATALYSIS TODAY,2020-05-01
-
46. DOI
Guo, Jianing;Huo, Feng;Cheng, Yuanhui;Xiang, Zhonghua
PAF-1 as oxygen tank to in -situ synthesize edge -exposed O-MoS 2 for highly efficient hydrogen evolution[会议论文],CATALYSIS TODAY,2020-05-01
-
47. DOI
赵云;向中华
微流控制备金属/共价有机框架功能材料研究进展[期刊论文],化工学报,2020-04-01
-
48. DOI
Li, Yang;Peng, Peng;Liao, Zhijian;Huo, Feng;Liu, Yujia;Shao, Xiaohong;Xiang, Zhonghua
Nitro-Group-Doped Fully Conjugated 2D Covalent Organic Polymers for Enhanced Oxygen Reduction Reaction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2020-03-09
-
49. DOI
Zhang, Weichao;Liu, Yujia;Luo, Yong;Xie, Chengpeng;Xiang, Zhonghua;Chen, Jian-Feng
HiGee Strategy toward Rapid Mass Production of Porous Covalent Organic Polymers with Superior Methane Deliverable Capacity[期刊论文],ADVANCED FUNCTIONAL MATERIALS,2020-03-01
-
50. DOI
Xia Zhenhai,向中华
Editorial: Catalysts for Clean Energy Conversion and Storage.[期刊论文],Frontiers in Materials,2020-02-21
-
51. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],FRONTIERS IN MATERIALS,2020-02-21
-
52. DOI
Xia, Zhenhai;Xiang, Zhonghua
Editorial: Catalysts for Clean Energy Conversion and Storage[期刊论文],Frontiers in Materials,2020-02-21
-
53. DOI
Xu, Baolin;Qi, Shihan;Jin, Mengmeng;Cai, Xiaoyi;Lai, Linfei;Sun, Zhouting;Han, Xiaogang;Lin, Zifeng;Shao, Hui;Peng, Peng;Xiang, Zhonghua;ten Elshof, Johan E.;Tan, Rou;Liu, Chen;Zhang, Zhaoxi;Duan, Xiaochuan;Ma, Jianmin
2020 roadmap on two-dimensional materials for energy storage and conversion[期刊论文],CHINESE CHEMICAL LETTERS,2019-12-01
-
54. DOI
Jin, Liming;Guo, Xin;Gong, Ruiqi;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Zheng, Jim P.
Target-oriented electrode constructions toward ultra-fast and ultra-stable all-graphene lithium ion capacitors[期刊论文],ENERGY STORAGE MATERIALS,2019-12-01
-
55. DOI
Liu, Yaoyao;Xiang, Zhonghua
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2019-11-06
-
56. DOI
刘瑶瑶,向中华
Fully Conjugated Covalent Organic Polymer with Carbon-Encapsulated Ni2P for Highly Sustained Photocatalytic H-2 Production from Seawater.[期刊论文],ACS Applied Materials & Interfaces,2019-10-15
-
57. DOI
李阳,彭鹏,Huo Feng,Shao Xiaohong,向中华
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],Frontiers in Materials,2019-10-04
-
58. DOI
Li, Yang;Peng, Peng;Huo, Feng;Shao, Xiaohong;Xiang, Zhonghua
Two-Dimensional Closed Conjugated Covalent Organic Polymers for Oxygen Reduction Reaction[期刊论文],FRONTIERS IN MATERIALS,2019-10-04
-
59. DOI
Mi, Chunxia;Peng, Peng;Xiang, Zhonghua
Soluble Covalent Organic Polymer for the Flexible Electrode of Supercapacitors[期刊论文],FRONTIERS IN MATERIALS,2019-10-02
-
60. DOI
Li, Yan;Chen, Junxiang;Huang, Junheng;Hou, Yang;Lei, Lecheng;Lin, Wanzhen;Lian, Yaping;Xiang Zhonghua;Yang, Huang-Hao;Wen, Zhenhai
Interfacial engineering of Ru-S-Sb/antimonene electrocatalysts for highly efficient electrolytic hydrogen generation in neutral electrolyte[期刊论文],CHEMICAL COMMUNICATIONS,2019-09-18
-
61. DOI
Cheng, Yuanhui;Guo, Yinjian;Zhang, Ningyuan;Tao, Shuo;Liao, Zhijian;Wang, Yalan;Xiang, Zhonghua
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],NANO ENERGY,2019-09-01
-
62. DOI
Cheng, Yuanhui;Zhang, Ningyuan;Wang, Qiuli;Guo, Yinjian;Tao, Shuo;Liao, Zhijian;Jiang, Peng;Xiang, Zhonghua
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],NANO ENERGY,2019-09-01
-
63. DOI
程元徽,郭银建,张宁远,陶硕,廖之建,王雅岚,向中华
In situ growing catalytic sites on 3D carbon fiber paper as self-standing bifunctional air electrodes for air-based flow batteries[期刊论文],Nano Energy,2019-07-10
-
64. DOI
程元徽,张宁远,王秋丽,郭银建,陶硕,廖之剑,姜鹏,向中华
A long-life hybrid zinc flow battery achieved by dual redox couples at cathode[期刊论文],Nano Energy,2019-06-13
-
65. DOI
Cheng, Yuanhui;Wang, Yalan;Wang, Qiuli;Liao, Zhijian;Zhang, Ningyuan;Guo, Yinjian;Xiang, Zhonghua
Hierarchically porous metal-free carbon with record high mass activity for oxygen reduction and Zn-air batteries[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-28
-
66. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: a 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],JOURNAL OF MATERIALS CHEMISTRY A,2019-04-14
-
67. DOI
Liao, Zhijian;Wang, Yalan;Wang, Qiuli;Cheng, Yuanhui;Xiang, Zhonghua
Bimetal-phthalocyanine based covalent organic polymers for highly efficient oxygen electrode[期刊论文],APPLIED CATALYSIS B-ENVIRONMENTAL,2019-04-01
-
68. DOI
Lin, Xinxin;Peng, Peng;Guo, Jianing;Xiang, Zhonghua
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
69. DOI
林欣欣,彭鹏,郭佳宁,向中华
Reaction milling for scalable synthesis of N, P-codoped covalent organic polymers for metal-free bifunctional electrocatalysts[期刊论文],CHEMICAL ENGINEERING JOURNAL,2019-02-15
-
70. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],Nanoscale,2019-01-07
-
71. DOI
Guo, Jianing;Li, Tingting;Wang, Qiuli;Zhang, Ningyuan;Cheng, Yuanhui;Xiang, Zhonghua
Superior oxygen electrocatalysts derived from predesigned covalent organic polymers for zinc-air flow batteries[期刊论文],NANOSCALE,2019-01-07
-
72. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],J. Energy Chem.,2019-01-01
-
73. DOI
Jin, Liming;Gong, Ruiqi;Zhang, Weichao;Xiang, Yue;Zheng, Junsheng;Xiang, Zhonghua;Zhang, Cunman;Xia, Yongyao;Zheng, Jim P.
Toward high energy-density and long cycling-lifespan lithium ion capacitors: A 3D carbon modified low-potential Li2TiSiO5 anode coupled with a lignin-derived activated carbon cathode[期刊论文],J. Mater. Chem. A,2019-01-01
-
74. DOI
Hou, Lijie;Guo, Jianing;Xiang, Zhonghua
Highly efficient electrocatalysts derived from carbon black supported non-precious metal macrocycle catalysts for oxygen reduction reaction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2019-01-01
-
75. DOI
Zhao, Yun;Xiang, Zhonghua
Synthesis of zeolitic imidazolate frameworks in droplet microfluidic system[期刊论文],Kexue Tongbao/Chinese Science Bulletin,2018-12-01
-
76. DOI
Shi, Lei;Qi, Ziyuan;Peng, Peng;Guo, Jianing;Wan, Gang;Cao, Dapeng;Xiang, Zhonghua
Pyrene-Based Covalent Organic Polymers for Enhanced Photovoltaic Performance and Solar-Driven Hydrogen Production[期刊论文],ACS APPLIED ENERGY MATERIALS,2018-12-01
-
77. DOI
赵云,廖芝建,向中华
Microfluidics for synthesis and morphology control of hierarchical porous covalent organic polymer monolith[期刊论文],CHEMICAL ENGINEERING SCIENCE,2018-10-19
-
78. DOI
赵云;向中华
液滴式微流控芯片制备沸石咪唑骨架材料[期刊论文],科学通报,2018-09-27
-
79. DOI
Guo, Jianing;Lin, Chun-Yu;Xia, Zhenhai;Xiang, Zhonghua
A Pyrolysis-Free Covalent Organic Polymer for Oxygen Reduction[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2018-09-17
-
80. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
81. DOI
Liu, Yaoyao;Liao, Zhijian;Ma, Xiangliang;Xiang, Zhonghua
Ultrastable and Efficient Visible-Light-Driven Hydrogen Production Based on Donor-Acceptor Copolymerized Covalent Organic Polymer[期刊论文],ACS APPLIED MATERIALS & INTERFACES,2018-09-12
-
82. DOI
Xiang, Zhonghua
Covalent organic polymers for electrocatalysis[会议论文],ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY,2018-08-19
-
83. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
84. DOI
Zhang, Weichao;Cheng, Yuanhui;Guo, Chunshuai;Xie, Chengpeng;Xiang, Zhonghua
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2018-08-15
-
85. DOI
张伟超,程元徽,郭春帅,谢程鹏,向中华
Cobalt Incorporated Porous Aromatic Framework for CO2/CH4 Separation[期刊论文],Industrial & Engineering Chemistry Research,2018-07-19
-
86. DOI
Yang, Liu;Cheng, Daojian;Zeng, Xiaofei;Wan, Xin;Shui, Jianglan;Xiang, Zhonghua;Cao, Dapeng
Unveiling the high-activity origin of single-atom iron catalysts for oxygen reduction reaction[期刊论文],PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2018-06-26
-
87. DOI
Shi, Lei;Peng, Peng;Xiang, Zhonghua
Controlled synthesis of porous nitrogen-doped carbon nanoshells for highly efficient oxygen reduction[期刊论文],REACTION CHEMISTRY & ENGINEERING,2018-06-01
-
88. DOI
Xu, Jing;Huo, Feng;Zhao, Yufei;Liu, Yaoyao;Yang, Qingqing;Cheng, Yuanhui;Min, Shixiong;Jin, Zhiliang;Xiang, Zhonghua
In-situ La doped Co3O4 as highly efficient photocatalyst for solar hydrogen generation[期刊论文],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018-05-03
-
89. DOI
Ma, Jizhen;Xiang, Zhonghua;Zhang, Jintao
Three-dimensional nitrogen and phosphorous Co-doped graphene aerogel electrocatalysts for efficient oxygen reduction reaction[期刊论文],SCIENCE CHINA-CHEMISTRY,2018-05-01
-
90. DOI
Cheng, Yuanhui;Li, Dongming;Shi, Lei;Xiang, Zhonghua
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],NANO ENERGY,2018-05-01
-
91. DOI
Zhou, Zhuohang;Peng, Peng;Xiang, Zhonghua
N-rich covalent organic polymer in situ modified TiO2 for highly efficient photocatalytic hydrogen evolution[期刊论文],SCIENCE BULLETIN,2018-03-30
-
92. DOI
程元徽,李东明,石磊,向中华
Efficient unitary oxygen electrode for air-based flow batteries[期刊论文],Nano Energy,2018-03-07
-
93. DOI
Meng, Zhu;Li, Juntao;Huo, Feng;Huang, Yan;Xiang, Zhonghua
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-12-31
-
94. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
95. DOI
郭佳宁,宁梦瑶,向中华
Highly efficient iron–nitrogen electrocatalyst derived from covalent organic polymer for oxygen reduction[期刊论文],JOURNAL OF ENERGY CHEMISTRY,2017-09-18
-
96. DOI
孟竹,黄燕,向中华,Juntao Li,Feng Huo
Fungi residue derived carbon as highly efficient hydrogen peroxide electrocatalyst[期刊论文],Chemical Engineering Science,2017-09-08
-
97. DOI
黄燕;李鼎;孟竹;周卓航;郭佳宁;程元徽;向中华
共价有机聚合物的合成及在燃料电池阴极氧还原反应中的应用[期刊论文],中国材料进展,2017-09-05
-
98. DOI
Guo, Jianing;Cheng, Yuanhui;Xiang, Zhonghua
Confined-Space-Assisted Preparation of Fe3O4-Nanoparticle-Modified Fe-N-C Catalysts Derived from a Covalent Organic Polymer for Oxygen Reduction[期刊论文],ACS SUSTAINABLE CHEMISTRY & ENGINEERING,2017-09-01
-
99. DOI
Guo, Jianing;Li, Yang;Cheng, Yuanhui;Dai, Liming;Xiang, Zhonghua
Highly Efficient Oxygen Reduction Reaction Electrocatalysts Synthesized under Nanospace Confinement of Metal-Oganic Framework[期刊论文],ACS NANO,2017-08-01
-
100. DOI
Peng, Peng;Zhou, Zhuohang;Guo, Jianing;Xiang, Zhonghua
Well-Defined 2D Covalent Organic Polymers for Energy Electrocatalysis[期刊论文],ACS ENERGY LETTERS,2017-06-01
-
101. DOI
Cheng, Yuanhui;Guo, Jianing;Huang, Yan;Liao, Zhijian;Xiang, Zhonghua
Ultrastable hydrogen evolution electrocatalyst derived from phosphide postmodified metal-organic frameworks[期刊论文],NANO ENERGY,2017-05-01
-
102. DOI
Yang, Qingqing;Peng, Peng;Xiang, Zhonghua
Covalent organic polymer modified TiO2 nanosheets as highly efficient photocatalysts for hydrogen generation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2017-04-27
-
103. DOI
Xie,Chengpeng;Huo,Feng;Huang,Yan;Cheng,Yuanhui;Liu,Guangqing;Xiang,Zhonghua
Holey Graphitic Carbon Derived from Covalent Organic Polymers Impregnated with Nonprecious Metals for CO 2 Capture from Natural Gas[期刊论文],Particle and Particle Systems Characterization,2017-02-01
-
104. DOI
Xiang, Zhonghua;Zhu, Lin;Qi, Lei;Yan, Lu;Xue, Yuhua;Wang, Dan;Chen, Jian-Feng;Dai, Liming
Two-Dimensional Fully Conjugated Polymeric Photosensitizers for Advanced Photodynamic Therapy[期刊论文],CHEMISTRY OF MATERIALS,2016-12-13
-
105. DOI
Lu, Ke;Hu, Ziyu;Xiang, Zhonghua;Ma, Jizhen;Song, Bin;Zhang, Jintao;Ma, Houyi
Cation Intercalation in Manganese Oxide Nanosheets: Effects on Lithium and Sodium Storage[期刊论文],ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2016-08-22
-
106. DOI
Xiang, Zhonghua;Dai, Quanbin;Chen, Jian-Feng;Dai, Liming
Edge Functionalization of Graphene and Two-Dimensional Covalent Organic Polymers for Energy Conversion and Storage[期刊论文],ADVANCED MATERIALS,2016-08-03
-
107. DOI
Fu, Yu'ang;Huang, Yan;Xiang, Zhonghua;Liu, Guangqing;Cao, Dapeng
Phosphorous-Nitrogen-Codoped Carbon Materials Derived from Metal-Organic Frameworks as Efficient Electrocatalysts for Oxygen Reduction Reactions[期刊论文],EUROPEAN JOURNAL OF INORGANIC CHEMISTRY,2016-05-01
-
108. DOI
Xiang, Zhonghua;Mercado, Rocio;Huck, Johanna M.;Wang, Hui;Guo, Zhanhu;Wang, Wenchuan;Cao, Dapeng;Haranczyk, Maciej;Smit, Berend
Systematic Tuning and Multifunctionalization of Covalent Organic Polymers for Enhanced Carbon Capture[期刊论文],JOURNAL OF THE AMERICAN CHEMICAL SOCIETY,2015-10-21
-
109. DOI
向中华
面向能源转化与存储应用的共价多孔骨架材料的可控制备[会议论文],2015年中国化工学会年会论文集,2015-10-17
-
110. DOI
Wan Gang;Fu Yu'ang;Guo Jianing;Xiang Zhonghua
Photoelectronic Porous Covalent Organic Materials: Research Progress and Perspective[期刊论文],ACTA CHIMICA SINICA,2015-06-15
-
111. DOI
Xiang, Zhonghua;Cao, Dapeng;Shao, Xiaohong;Wang, Wenchuan;Zhang, Jianwei;Wu, Weize
Facile preparation of high-capacity hydrogen storage metal-organic frameworks : A combination of microwave-assisted solvothermal synthesis and supercritical activation[期刊论文],CHEMICAL ENGINEERING SCIENCE,2010-05-15
专利
- 1. 一种电化学辅助的氮、磷双掺杂碳基空气电极的制备方法 ,CN 110112427 A
- 2. 一种电化学辅助的氮、磷双掺杂碳基空气电极的制备方法 ,CN 110112427 A
- 3. 一种梯度亲疏水/气空气电极的结构及其制备方法 ,CN 109786762 B
- 4. 一种氮、磷共掺杂碳基非金属氧还原/析出双效催化剂及其制备方法 ,CN 107346825 A
- 5. 一种氮、磷、氟共掺杂碳基混合电容材料的制备方法 ,CN 106992076 A
- 6. 一种锌空气液流电池用空气电极结构及其制备方法 ,CN 106960961 A
- 7. 一种析氢催化剂及其制备方法 ,CN 106215964 A
- 8. 一种氮、磷、氟共掺杂碳基混合电容材料的制备方法
- 9. 一种自支撑氧还原/析出双效氧电极催化剂及其制备方法
- 10. 一种用于甲烷吸附存储的共价有机聚合物及其制备方法
- 11. 一种制备氮掺杂石墨烯的新方法
- 12. 一种锌镍/空气混合型液流电池系统
- 13. 一种反应磨法制备边缘羧基化石墨烯和石墨烯的方法
- 14. 一种使用造纸黑液木质素制备活性炭的方法
- 15. 一种提高染料敏化太阳能电池光电转换效率的方法
- 16. 一种高分散性改性边缘功能石墨烯润滑油添加剂的制备方法
- 17. 一种基于弱酸性电解液的锌空气液流电池
- 18. 一种基于石墨烯负载改性COFs基电催化剂催化性能的方法
- 19. 一种使用超重力法制备多孔共价有机材料的方法
- 20. 一种析氢催化剂及其制备方法
- 21. 一种以聚乙烯醇为粘结剂的活性炭成型方法
- 22. 一种石墨烯散热浆料的制备方法
- 23. 一种合成高效氧还原/氧析出双功能催化剂的制备方法
- 24. 基于全共轭刚性结构和准酞菁活性中心的可溶性拓扑有机聚合物及制备
- 25. 一种易分散于有机溶剂及润滑油中的功能化石墨烯的制备方法
- 26. 一种双配体策略制备非贵金属氧还原电催化剂
- 27. 一种有序分级孔的铁-氮掺杂氧还原碳催化剂及其制备方法
- 28. 一种利用反应磨制备共价有机聚合物的方法与应用
- 29. 一种氮掺杂石墨烯催化剂的制备方法
- 30. 一种非金属自支撑空气电极及其制备方法
- 31. 一种主客体策略合成氮、其他杂原子双掺碳基双效催化剂的方法
- 32. 一种具有分级孔、氮硫双掺杂非金属碳基氧还原催化剂及制备
荣誉及奖励
- 1. 化工纳微结构材料的分子设计与定向制备 ,2014-01-29 00:00:00 ,省部级科技奖励 ,一等奖
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