吴宏禄头像

吴宏禄

见习副教授 博士研究生毕业

部门:数理学院

研究方向:纳米功能材料及应用

电子邮箱:2024500151@mail.buct.edu.cn

办公地址:北京化工大学昌平校区文理楼418

ORCID:0000-0002-8237-5695

DBLP:

10 Visits

个人简介

      硕士生导师,主要从事纳米功能材料的研制,以及氢能制取、应用,电化学能源存储、转化等领域应用基础研究。近年来在纳米能源材料及其电解水制氢、超级电容器应用等方向发表SCI论文20余篇,期刊杂志包括Journal of Energy Storage, Chinese Journal of catalysis, Electrochimica Acta, ACS Applied Nano Materials, International Journal of Hydrogen Energy等国际著名期刊,多次参加材料研究协会(MRS)等国际学术会议并做报告。作为负责人承担自然科学基金1项,国家重点研发专项子课题1项,参与973、国家重点研发氢能专项,国家自然科学基金重点项目等多个项目。担任SCI杂志期刊Frontiers in Chemistry的客座编辑,以及Journal of Energy Chemistry等多个期刊的审稿人。



主持或参与项目课题:

1.      中高温MOFs多物理场耦合的超级电容器研究——国家自然科学基金青年基金项目(主持;在研);

2.     特殊环境下应急电源系统标准体系研究——国家重点研发计划子课题(主持;结项);

3.     紧凑型可再生能源电热氢联产系统模块关键技术——国家重点研发计划氢能专项(参与;在研);

4.     电解制氢-合成氨耦合仿真平台和集成工艺开发——重点研发计划子课题(参与;在研);

5.      多能互补的制氢-液氢-综合供能系统仿真与模拟研究——国内横向(参与;在研);

6.     石墨烯的可控制备、物性与器件研究——973计划(参与;结项)。


代性论文

代表性论文

1.      Wenlei Zhang, Shengcai Hao, Bo Sun, Honglu Wu*Towards a high energy density asymmetric supercapattery: binary metal MOF-derived CoMn/rGO as cathode materials. Carbon Letters, 2025;1-14. (唯一通讯)

2.      Honglu Wu, Shuang Li*, Yang Liu, Qing Mu, Yixiang Shi*. Dual Metal MOF Derived Co-Ni/rGO as Cathode Material with Synergetic Effect for an Asymmetric Supercapacitor with Enhanced Performances.Journal of Energy Storage, 2024; 84: 110864.(第一作者)

3.      Menghua Liu, Jinyu Wang, Honglu Wu, Shuang Li, Yixiang Shi*, Ningsheng Cai, Construction of an electrode with hierarchical three-dimensional NiFe-oxyhydroxides by two-step electrodeposition for large-current oxygen evolution reaction, Journal of Hydrogen Energy, 2024; 51: 626-637.

4.      Yang Liu, Shuang Li*, Honglu Wu, Yixiang Shi*, Experimental investigation and analysis for the bubble size distribution during alkaline water electrolysis by using a wire electrode. Decarbon, 2024; 5 (2024) 100052.

5.       Yinghao Lv, Jiaqi He, Zhongwen Shen, Honglu Wu, Dawei He*, Yongsheng Wang*. In-situ hydrothermal synthesis of a novel morphology daisy shape nickel cobalt oxide films for high performance supercapattery. Journal of Alloys and Compounds.2023;985: 173376.

6.      Yang Liu, Shuang Li*, Honglu Wu, Yixiang Shi*. Impact of electrode-normal magnetic field on oxygen bubbles generated by alkaline water electrolysis at low current densities. Journal of Electroanalytical Chemistry, 2023;945:117679.

7.      Wenxuan Li, Wenlei Zhang, Shengcai Hao, Honglu Wu*,Bimetal Metal-organic Frameworks Derived Ni-Mn@Carbon/Reduced Graphene Oxide as Cathode for Asymmetric Supercapacitor with High Energy Density,Langmuir,2023; 39(35): 12510–12519.(唯一通讯作者)

8.      Wu Honglu, Li Shuang*, Liu Yang, Shi Yixiang*Self-assembled Zn-Co MOF nanospheres/rGO as cathode material for an asymmetric supercapacitor with high energy density, Electrochimica Acta, 2023; 462:142740.(第一作者)

9.     Yang Liu, Shuang Li, Honglu Wu, Yixiang Shi*, The “tornado” effect induced by magnetohydrodynamic convection in an electrolytic cell with a wire-electrode, International Journal of Hydrogen Energy2023;48(75):29048-29057.

10.      Wu Honglu, Li Shuang*, Liu Yang, Liu Menghua, Shi Yixiang*, Metal-Organic Framework- Derived Hollow Carbon Nano Sphere@Ni/Reduced Graphene Oxide Composites for Supercapacitor Electrodes with Enhanced Performance, ACS Applied Nano Materials, 2023; 6(3): 1582–1591.(第一作者)

11.      Wu Honglu, He Jiaqi*, Self-assembled MOF derived Co@C/rGO as Positive Electrode Material for a Supercapattery with High Energy Density, Diamond and Related Materials, 2022; 123(2): 108912.(第一作者)

12.      Wu Honglu, Qiu Zenghui*, Fe3O4@N-porous carbon nano rice/rGO sheet as positive electrode material for a high performance supercapattery, Journal of Alloys and Compounds, 2021; 879(4): 160264.(第一作者)

13.      Wu Honglu, He Dawei, Wang Yongsheng*, Facile one-step process synthesized reduced graphene oxide/Mn3O4 nanocomposite for a symmetric supercapacitor, Materials Letters, 2020; 268: 127613.(第一作者)

14.      Wu Honglu, He Dawei, Wang Yongsheng*, Electrode materials of Cobalt@Nitrogen doped carbon nano rod/reduced graphene oxide on Nickel foam by electrophoretic deposition and 3D rGO aerogel for a high-performance asymmetrical supercapacitor, Electrochimica Acta, 2020; 343(4): 136117.(第一作者) 

15.    Yang Lou, Honglu Wu, Jingyue Liu*, Nanocarbon-Edge-Anchored High-Density Pt Atoms for 3-nitrostyrene Hydrogenation: Strong Metal-Carbon Interaction, iScience,2019; 13:190-198.

16.    Yang Lou, Jia Xu, Honglu Wu, Jingyue Liu*. Highly active, selective and stable hollow nanocarbon supported Pd particles for selective hydrogenation of 3-nitrostyrene.Chemical Communication, 2018;

17.    Jia Xu, Yian Song, Honglu Wu, Jingyue Liu, Probing the catalytic behavior of ZnO nanowire supported Pd1 single‐atom catalyst for selected reactions, Chinese Journal of Catalysis,2017; 38(9):1549-1557.

18.    Qiu Zenghui, He Dawei, Wang Yongsheng*, Wu Honglu, Li Jiayuan, High-performance asymmetric supercapacitor with ultrahigh energy density based on hierarchical graphene sheets@NiO core-shell nanosheets and 3D drilled graphene sheets hydrogel, Journal of Alloys and Compounds, 2017; 727: 1189-1202.

19.    Zenghui Qiu, Dawei He, Yongsheng Wang,* Xuan Zhao, Wen Zhao and Honglu Wu. High performance asymmetric supercapacitors with ultrahigh energy density based on hierarchical carbon nanotubes@NiO core–shell nanosheets and defect-introduced graphene sheets with hole structure. RSC Advances,2017;7: 7843–7856

20.    Liu Yongchuan, He Dawei, Wu Honglu, Duan Jiahua, Zhang Yining*, Hydrothermal Self-assembly of Manganese Dioxide/Manganese Carbonate/Reduced Graphene Oxide Aerogel for Asymmetric Supercapacitors, Electrochimica Acta, 2015; 164: 154-162.


   招生信息

   希望你:对科研充满兴趣;具有较强的内驱力、执行力,具备较为扎实的理论基础以及自主学习能力;为人踏实可靠,善于沟通交流。


教育经历

入学时间 毕业时间 学位授予单位 学历
2012-09-01 2020-09-30 北京交通大学 博士研究生毕业
2007-09-01 2011-06-30 北京交通大学 大学本科毕业

工作经历

起始年月 截止年月 所在单位名称
2021-10-18 2024-10-31 清华大学
2015-09-30 2017-10-31 美国亚利桑那州立大学

社会职务

社会活动

研究领域

   主要集中在石墨烯及其复合物、MOFs电解水催化剂、储能纳米材料的合成、修饰,以及在中高温电催化水解、常中高温燃料电池、常中高温超级电容器、锂钠离子电池等能量高效转换和高能量密度存储领域的应用。



本科生

研究生

校级项目

纵向项目

横向项目

论文信息

[+][-]代表性论文
[+][-] 2030年
[+][-] 2029年
[+][-] 2028年
[+][-] 2027年
[+][-] 2026年
[+][-] 2025年
[+][-] 2024年
[+][-] 2023年
[+][-]2023年之前

软件著作

专利

荣誉及奖励

招生信息

   希望你:对科研充满兴趣;具有较强的内驱力、执行力,具备较为扎实的理论基础以及自主学习能力;为人踏实可靠,善于沟通交流。