个人简介
本人主要致力于有机功能材料和器件的研究: 采用简单高效的共结晶法,利用多组分间的协同集合效应和特殊的分子堆积方式,实现材料多功能化;构筑并研究了基于氧化还原中心的小分子和聚合物分子导线的固态基质分子存储器件,以期实现未来计算机小型化高集成化的要求;调节分子的结构,给/受电子能力,聚集态结构和分子掺杂及电极修饰等,实现多功能光电性能,从而构筑柔性器件,研究其在神经网络突触的应用。发表SCI文章40余篇,其中第一/通讯作者16篇,包括Nat. Commun.、Angew. Chem. Int. Ed.、Chem. Mater.、ACS Appl. Mater. Interfaces等。授权国家发明专利3项。主持国家自然基金2项,主持中央高校科研业务费1项。北京化工大学C类人才引进计划。 [1] Xin Wang#, Zongrui Wang#*, Xiang Wang, Fangyuan Kang, Qianfeng Gu, Qichun Zhang*, Angew. Chem. Int. Ed. 2024, e202416181. doi: 10.1002/anie.202416181. [2] Yang Wang#, Yang Hu#, Junfeng Guo#, Zongrui Wang#, Yang Li, Fengxiang Qie, Chunfeng Shi, Lei Zhang, Yonggang Zhen*, SCIENCE CHINA Chemistry, 2023, 66, 1450-1456. [3] Zongrui Wang#*, Yang Hu,# Yujie Xie,# Florian Glöcklhofer, Fengxiang Qie, Junfeng Guo, Lei Zhang, Chunfeng Shi*, Yonggang Zhen*, SCIENCE CHINA Materials, 2023, 66, 2429–2435. [4] Haoguo Yue, Zongrui Wang*, Yonggang Zhen*, ACS Omega 2022, 7 (22), 18197-18205. [5] Zongrui Wang*, Renping Li, Kexiang Zhao, Fei Yu, Jianfeng Zhao*, Yonggang Zhen, Qichun Zhang*, J. Mater. Chem. C2022, 10, 2757-2762. [6] Zongrui Wang, Fei Yu, Wangqiao Chen, Jianfeng Wang, Jinyu Liu, Changjiang Yao, Jianfeng Zhao, Huanli Dong, Wenping Hu,* Qichun Zhang*, Angew. Chem. Int. Ed.2020, 59, 17580-17586. [7] Zongrui Wang, Fei Yu, Zepeng Wang, Jian Xie, Jianfeng Zhao*, Ye Zou, Qichun Zhang*, Chem. Eur. J. 2020, 26,3578-3585. [8] Zongrui Wang, Qichun Zhang*, Asian J. Org. Chem. 2020, 9, 1252–1261. [9] Yinjuan Huang, #Zongrui Wang, # Zhong Chen, Qichun Zhang*, Angew. Chem. Int. Ed. 2019, 58 (0), 9696–9711. [10] Zongrui Wang, Ye Zou, Wangqiao Chen, Yinjuan Huang, Changjiang Yao, Qichun Zhang*, Adv. Electron. Mater. 2019, 5 (2), 1800547. [11] Zilong Wang, #Zongrui Wang, # Yecheng Zhou, Peiyang Gu, Guangfeng Liu, Kexiang Zhao, Lina Nie, Qingsheng Zeng, Jing Zhang, Yongxin Li, Ganguly Rakesh, Naoki Aratani, Li Huang, Zheng Liu, Hiroko Yamada,* Wenping Hu,* Qichun Zhang*, J. Mater. Chem. C2018, 6 (14), 3628-3633. [12] Pei-Yang Gu,#Zongrui Wang,# Guangfeng Liu, Huiying Yao, Zilong Wang, Yang Li, Jia Zhu*, Shuzhou Li, Qichun Zhang*, Chem. Mater. 2017, 29 (10), 4172-4175. [13] Zongrui Wang, Huanli Dong*, Tao Li*, Rune Hviid, Ye Zou, Zhongming Wei, Xiaolong Fu, Erjing Wang, Yonggang Zhen, Kasper Nørgaard*, Bo W. Laursen & Wenping Hu*, Nat. Commun. 2015, 6, 7478. [14] Zongrui Wang, Huanli Dong*, Ye Zou, Qiang Zhao, Jiahui Tan, Jie Liu, Xiuqiang Lu, Jinchong Xiao, Qichun Zhang, Wenping Hu*, ACS Appl. Mater. Interfaces 2016, 8 (12), 7919-7927. [15] Zongrui Wang, Xiangguang Li, Jiahui Tan, Xiaolong Fu, Ye Zou, Jie Liu, Chengyi Xiao, Huanli Dong, Wei Jiang, Yonggang Zhen, Zhaohui Wang*, Wenping Hu*,J. Mater. Chem. C,2016, 4, 7230-7240. [16] Zongrui Wang, Jianfeng Zhao, Huanli Dong*, Ge Qiu, Qichun Zhang*, Wenping Hu *. Phys Chem Chem Phys. 2015, 17, 26519-26524.
教育经历
| 入学时间 |
毕业时间 |
学位授予单位 |
学历 |
| 2010-09-01 |
2016-07-01 |
中国科学院化学研究所 |
博士研究生毕业 |
| 2006-09-01 |
2010-07-01 |
内蒙古大学 |
大学本科毕业 |
工作经历
| 起始年月 |
截止年月 |
所在单位名称 |
| 2016-10-12 |
2021-03-01 |
新加坡南洋理工大学 |
研究领域
研究领域: 1. 有机共晶多功能材料的组装及器件的研究 2. 分子功能器件的研究 3. 有机场效应晶体管及其柔性智能仿生的应用
本科生课程
| 课程名称 |
开课学年 |
课程总学时 |
选课人数 |
课程性质 |
| 高分子科学实验Ⅱ |
2023 |
32 |
24 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
30 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
24 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
25 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
25 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
24 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
24 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
24 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
25 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
25 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
22 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
23 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
24 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
25 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
24 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
24 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2023 |
32 |
25 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
26 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
26 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
26 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
26 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
25 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
27 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
29 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
24 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
22 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
26 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
27 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
28 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
26 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
26 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
26 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
24 |
实践环节必修 |
| 高分子科学实验Ⅱ |
2022 |
32 |
25 |
实践环节必修 |
纵向项目
- 1. 基于有机二维共晶膜封装材料的开发及其在光电器件中的应用 ,省、市、自治区科技项目,项目时间:2025-01-01 至 2027-12-31
- 2. 基于“缝合”策略制备柔性可拉伸半导体复合材料及其在器件中的应用 ,国家自然科学基金项目,项目时间:2023-01-01 至 2026-12-31
- 3. 有机共晶材料光电传感研究及其智能仿生应用 ,国家自然科学基金项目,项目时间:2022-01-01 至 2024-12-31
论文信息
[+][-]代表性论文
-
1. DOI
王宗瑞,胡洋,谢玉洁,Fengxiang Qie,郭俊峰,张磊,Chunfeng Shi,Florian Glocklhofer,甄永刚
1D slipped stacking microribbon-like crystals based on 6,13-Dicyanopentacene for ambipolar charge transport[期刊论文],SCIENCE CHINA Materials,2023-03-03
-
2. DOI
Yue, Haoguo;Wang, Zongrui;Zhen, Yonggang
Recent Advances of Self-Healing Electronic Materials Applied in Organic Field-Effect Transistors[期刊论文],ACS OMEGA,2022-06-07
-
3. DOI
Wang, Zongrui;Li, Renping;Zhao, Kexiang;Yu, Fei;Zhao, Jianfeng;Zhen, Yonggang;Zhang, Qichun
A co-crystallization strategy toward high-performance n-type organic semiconductors through charge transport switching from p-type planar azaacene derivatives[期刊论文],JOURNAL OF MATERIALS CHEMISTRY C,2022-02-17
[+][-]
2030年
-
1. DOI
王宗瑞,胡洋,谢玉洁,Fengxiang Qie,郭俊峰,张磊,Chunfeng Shi,Florian Glocklhofer,甄永刚
1D slipped stacking microribbon-like crystals based on 6,13-Dicyanopentacene for ambipolar charge transport[期刊论文],SCIENCE CHINA Materials,2023-03-03
-
2. DOI
Yue, Haoguo;Wang, Zongrui;Zhen, Yonggang
Recent Advances of Self-Healing Electronic Materials Applied in Organic Field-Effect Transistors[期刊论文],ACS OMEGA,2022-06-07
-
3. DOI
Wang, Zongrui;Li, Renping;Zhao, Kexiang;Yu, Fei;Zhao, Jianfeng;Zhen, Yonggang;Zhang, Qichun
A co-crystallization strategy toward high-performance n-type organic semiconductors through charge transport switching from p-type planar azaacene derivatives[期刊论文],JOURNAL OF MATERIALS CHEMISTRY C,2022-02-17
[+][-]
2029年
-
1. DOI
王宗瑞,胡洋,谢玉洁,Fengxiang Qie,郭俊峰,张磊,Chunfeng Shi,Florian Glocklhofer,甄永刚
1D slipped stacking microribbon-like crystals based on 6,13-Dicyanopentacene for ambipolar charge transport[期刊论文],SCIENCE CHINA Materials,2023-03-03
-
2. DOI
Yue, Haoguo;Wang, Zongrui;Zhen, Yonggang
Recent Advances of Self-Healing Electronic Materials Applied in Organic Field-Effect Transistors[期刊论文],ACS OMEGA,2022-06-07
-
3. DOI
Wang, Zongrui;Li, Renping;Zhao, Kexiang;Yu, Fei;Zhao, Jianfeng;Zhen, Yonggang;Zhang, Qichun
A co-crystallization strategy toward high-performance n-type organic semiconductors through charge transport switching from p-type planar azaacene derivatives[期刊论文],JOURNAL OF MATERIALS CHEMISTRY C,2022-02-17
[+][-]
2028年
-
1. DOI
王宗瑞,胡洋,谢玉洁,Fengxiang Qie,郭俊峰,张磊,Chunfeng Shi,Florian Glocklhofer,甄永刚
1D slipped stacking microribbon-like crystals based on 6,13-Dicyanopentacene for ambipolar charge transport[期刊论文],SCIENCE CHINA Materials,2023-03-03
-
2. DOI
Yue, Haoguo;Wang, Zongrui;Zhen, Yonggang
Recent Advances of Self-Healing Electronic Materials Applied in Organic Field-Effect Transistors[期刊论文],ACS OMEGA,2022-06-07
-
3. DOI
Wang, Zongrui;Li, Renping;Zhao, Kexiang;Yu, Fei;Zhao, Jianfeng;Zhen, Yonggang;Zhang, Qichun
A co-crystallization strategy toward high-performance n-type organic semiconductors through charge transport switching from p-type planar azaacene derivatives[期刊论文],JOURNAL OF MATERIALS CHEMISTRY C,2022-02-17
[+][-]
2027年
-
1. DOI
王宗瑞,胡洋,谢玉洁,Fengxiang Qie,郭俊峰,张磊,Chunfeng Shi,Florian Glocklhofer,甄永刚
1D slipped stacking microribbon-like crystals based on 6,13-Dicyanopentacene for ambipolar charge transport[期刊论文],SCIENCE CHINA Materials,2023-03-03
-
2. DOI
Yue, Haoguo;Wang, Zongrui;Zhen, Yonggang
Recent Advances of Self-Healing Electronic Materials Applied in Organic Field-Effect Transistors[期刊论文],ACS OMEGA,2022-06-07
-
3. DOI
Wang, Zongrui;Li, Renping;Zhao, Kexiang;Yu, Fei;Zhao, Jianfeng;Zhen, Yonggang;Zhang, Qichun
A co-crystallization strategy toward high-performance n-type organic semiconductors through charge transport switching from p-type planar azaacene derivatives[期刊论文],JOURNAL OF MATERIALS CHEMISTRY C,2022-02-17
[+][-]
2026年
-
1. DOI
王宗瑞,胡洋,谢玉洁,Fengxiang Qie,郭俊峰,张磊,Chunfeng Shi,Florian Glocklhofer,甄永刚
1D slipped stacking microribbon-like crystals based on 6,13-Dicyanopentacene for ambipolar charge transport[期刊论文],SCIENCE CHINA Materials,2023-03-03
-
2. DOI
Yue, Haoguo;Wang, Zongrui;Zhen, Yonggang
Recent Advances of Self-Healing Electronic Materials Applied in Organic Field-Effect Transistors[期刊论文],ACS OMEGA,2022-06-07
-
3. DOI
Wang, Zongrui;Li, Renping;Zhao, Kexiang;Yu, Fei;Zhao, Jianfeng;Zhen, Yonggang;Zhang, Qichun
A co-crystallization strategy toward high-performance n-type organic semiconductors through charge transport switching from p-type planar azaacene derivatives[期刊论文],JOURNAL OF MATERIALS CHEMISTRY C,2022-02-17
[+][-]
2025年
-
1. DOI
王宗瑞,胡洋,谢玉洁,Fengxiang Qie,郭俊峰,张磊,Chunfeng Shi,Florian Glocklhofer,甄永刚
1D slipped stacking microribbon-like crystals based on 6,13-Dicyanopentacene for ambipolar charge transport[期刊论文],SCIENCE CHINA Materials,2023-03-03
-
2. DOI
Yue, Haoguo;Wang, Zongrui;Zhen, Yonggang
Recent Advances of Self-Healing Electronic Materials Applied in Organic Field-Effect Transistors[期刊论文],ACS OMEGA,2022-06-07
-
3. DOI
Wang, Zongrui;Li, Renping;Zhao, Kexiang;Yu, Fei;Zhao, Jianfeng;Zhen, Yonggang;Zhang, Qichun
A co-crystallization strategy toward high-performance n-type organic semiconductors through charge transport switching from p-type planar azaacene derivatives[期刊论文],JOURNAL OF MATERIALS CHEMISTRY C,2022-02-17
[+][-]
2024年
-
1. DOI
王宗瑞,胡洋,谢玉洁,Fengxiang Qie,郭俊峰,张磊,Chunfeng Shi,Florian Glocklhofer,甄永刚
1D slipped stacking microribbon-like crystals based on 6,13-Dicyanopentacene for ambipolar charge transport[期刊论文],SCIENCE CHINA Materials,2023-03-03
-
2. DOI
Yue, Haoguo;Wang, Zongrui;Zhen, Yonggang
Recent Advances of Self-Healing Electronic Materials Applied in Organic Field-Effect Transistors[期刊论文],ACS OMEGA,2022-06-07
-
3. DOI
Wang, Zongrui;Li, Renping;Zhao, Kexiang;Yu, Fei;Zhao, Jianfeng;Zhen, Yonggang;Zhang, Qichun
A co-crystallization strategy toward high-performance n-type organic semiconductors through charge transport switching from p-type planar azaacene derivatives[期刊论文],JOURNAL OF MATERIALS CHEMISTRY C,2022-02-17
[+][-]
2023年
-
1. DOI
王宗瑞,胡洋,谢玉洁,Fengxiang Qie,郭俊峰,张磊,Chunfeng Shi,Florian Glocklhofer,甄永刚
1D slipped stacking microribbon-like crystals based on 6,13-Dicyanopentacene for ambipolar charge transport[期刊论文],SCIENCE CHINA Materials,2023-03-03
-
2. DOI
Yue, Haoguo;Wang, Zongrui;Zhen, Yonggang
Recent Advances of Self-Healing Electronic Materials Applied in Organic Field-Effect Transistors[期刊论文],ACS OMEGA,2022-06-07
-
3. DOI
Wang, Zongrui;Li, Renping;Zhao, Kexiang;Yu, Fei;Zhao, Jianfeng;Zhen, Yonggang;Zhang, Qichun
A co-crystallization strategy toward high-performance n-type organic semiconductors through charge transport switching from p-type planar azaacene derivatives[期刊论文],JOURNAL OF MATERIALS CHEMISTRY C,2022-02-17
[+][-]2023年之前
-
1. DOI
王宗瑞,胡洋,谢玉洁,Fengxiang Qie,郭俊峰,张磊,Chunfeng Shi,Florian Glocklhofer,甄永刚
1D slipped stacking microribbon-like crystals based on 6,13-Dicyanopentacene for ambipolar charge transport[期刊论文],SCIENCE CHINA Materials,2023-03-03
-
2. DOI
Yue, Haoguo;Wang, Zongrui;Zhen, Yonggang
Recent Advances of Self-Healing Electronic Materials Applied in Organic Field-Effect Transistors[期刊论文],ACS OMEGA,2022-06-07
-
3. DOI
Wang, Zongrui;Li, Renping;Zhao, Kexiang;Yu, Fei;Zhao, Jianfeng;Zhen, Yonggang;Zhang, Qichun
A co-crystallization strategy toward high-performance n-type organic semiconductors through charge transport switching from p-type planar azaacene derivatives[期刊论文],JOURNAL OF MATERIALS CHEMISTRY C,2022-02-17
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