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个人简历
2008年9月–2012年6月,威斯尼斯人wns2299cn 威斯尼斯人wns2299cn 应用化学专业学习,获理学学士学位;
2012年9月–2017年6月,中国科学技术大学/中国科威斯尼斯人wns2299cn合肥物质科学研究院 材料物理与化学专业学习,硕博连读,获工学博士学位;
2017年8月–至今,威斯尼斯人wns2299cn,讲师/硕士生导师
主要研究领域、方向
先进太阳电池材料与器件及新型光电功能材料的设计合成
(1)有机小分子/无机空穴传输材料的设计合成及其在钙钛矿/金属硫化物太阳电池中的应用;
(2) 高功质比、超柔性太阳电池基底材料的开发及其应用研究。
硕士生招生专业:化学工程与技术、化学、材料学(学术型);材料与化工(专业型)
主讲本科生课程:有机化学、太阳能材料化工(双语)、精细有机合成技术等。
研究成果(代表性成果)
主要从事新型太阳电池包括钙钛矿太阳电池、金属硫族化合物太阳电池材料与器件的研究工作,近五年来在ACS Applied Materials & Interfaces、Journal of Power Sources、Chemical Communications、Advanced Functional Materials、Journal of Physical Chemistry C、Physical Chemistry Chemical Physics等期刊上发表论文50余篇。
目前承担科研项目
(1)主持国家自然科学基金青年基金,硒硫化锑太阳电池中具备缺陷钝化功能的高迁移率空穴传输材料设计合成及器件性能研究 (52002105, 2021.01-2023.12);
(2)主持安徽省自然科学基金青年基金,高迁移率易成膜免掺杂酞菁基空穴传输材料的设计合成及其高效稳定光伏器件研究 (1908085QB56, 2019.07-2021.06);
(3)主持威斯尼斯人wns2299cn学术新人提升B计划,具有缺陷钝化功能的免掺杂空穴传输材料设计合成及其太阳电池性能研究 (JZ2021HGTB0105, 2021.01-2022.12);
(4)主持中科院重点实验室开放课题重点项目,免掺杂配合物空穴传输材料的合成及太阳电池性能研究,已结题;
(5)主持安徽省重点实验室自主创新专项,基于三维硒掺杂石墨烯的对电极制备及其在太阳电池中的电催化性能研究,已结题;
(6)主持威斯尼斯人wns2299cn博士专项科研资助基金:基于芴衍生物的钙钛矿太阳电池空穴传输材料的合成及性能研究,已结题。
获奖及专利情况
(1) 2015年第15届中国光伏学术年会优秀论文奖
(2)2020年威斯尼斯人wns2299cn本科毕业设计(论文)优秀指导教师
著作论文(代表作)
[1] Chen Wangchao*; Zhang, Hanyu; Sun Jianjun; Ghadari, Rahim; Zhang Zhengguo; Fei Pan; Xun Sun; Fuling Guo; Shi, Chengwu; Molecular tailor-making of zinc phthalocyanines as dopant-free hole-transporting materials for efficient and stable perovskite solar cells, Journal of Power Sources, 2021, 505, 230095.
[2] Chen Wangchao*; Zhang, Hanyu; Zheng, Haofeng; Li, Haitao; Guo, Fuling; Ni, Gang; Ma, Miaolian; Shi, Chengwu; Ghadari, Rahim; Hu, Linhua*; Two-dimensional triphenylene cored hole-transporting materials for efficient perovskite solar cells , Chemical Communications, 2020, 56(12): 1879-1882.
[3] Chen Wangchao*; Liu, Tingting; Sun, Xun; Guo, Fuling; Wang, Yanqing; Shi, Chengwu; Ghadari, Rahim; Kong, Fantai*; Facile synthesis of simple arylamine-substituted naphthalene derivatives as hole-transporting materials for efficient and stable perovskite solar cells , Journal of Power Sources, 2019, 425: 87-93.
[4] Chen Wangchao*; Yang, Hanhan; Guo, Fuling; Shi, Chengwu; Sun, Xun; Wang, Yanqing; Ghadari, Rahim; Hu, Linhua; Simply designed nonspiro fluorene-based hole-transporting materials for high performance perovskite solar cells , Synthetic Metals, 2019, 250: 42-48.
[5] Huang Yin; Chen Wangchao*; Zhang Xian Xi; Ghadari Rahim; Fang Xia Qin; Yu Ting; Kong Fan Tai*; Ruthenium complexes as sensitizers with phenyl-based bipyridine anchoring ligands for efficient dye-sensitized solar cells, Journal of Materials Chemistry C, 2018, 6(35): 9445-9452.
[6] Huang Yin; Chen Wangchao*; Ghadari Rahim; Liu Xue Peng; Fang Xia Qin; Yu Ting; Kong Fan Tai*; Highly efficient ruthenium complexes with acetyl electron-acceptor unit for dye sensitized solar cells, Journal of Power Sources, 2018, 396: 559-565.
[7] Chen, Wangchao; Kong, Fan-Tai*; Ghadari, Rahim; Li, Zhao-Qian; Liu, Xue-Peng; Yu, Ting; Huang, Yin; Huang, Yang; Hayat, Tasawar; Dai, Song-Yuan*; Insight into Electron-Donating Ancillary Ligands in Ruthenium Terpyridyl Complexes Configuration on Performances of Dye-Sensitized Solar Cells, Journal of Physical Chemistry C, 2017, 121(16): 8752-8759.
[8] Chen Wangchao; Kong Fan-Tai*; Ghadari Rahim; Li Zhao-Qian; Guo Fu-Ling; Liu Xue-Peng; Huang Yang; Yu Ting; Hayat Tasawar; Dai Song-Yuan*; Unravelling the structural-electronic impact of arylamine electron-donating antennas on the performances of efficient ruthenium sensitizers for dye-sensitized solar cells, Journal of Power Sources, 2017, 346: 71-79.
[9] Chen Wangchao; Kong Fan-Tai*; Li Zhao-Qian; Pan Jia-Hong*; Liu Xue-Peng; Guo Fu-Ling; Zhou Li; Huang Yang; Yu Ting; Dai Song-Yuan*; Superior Light-Harvesting Heteroleptic Ruthenium(II) Complexes with Electron-Donating Antennas for High Performance Dye-Sensitized Solar Cells, ACS Applied Materials & Interfaces, 2016, 8(30): 19410-19417.
[10] Chen Wangchao; Kong Fan-Tai*; Liu Xue-Peng; Guo Fu-Ling; Zhou Li; Ding Yong; Li Zhao-Qian; Dai Song-Yuan*; Effect of electron-donor ancillary ligands on the heteroleptic ruthenium complexes: synthesis, characterization, and application in high-performance dye-sensitized solar cells, Physical Chemistry Chemical Physics, 2016, 18(16): 11213-11219.