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个人简介

2017 -2020年于北京交通大学进行博士及博士后研究,2020年4月加入新葡萄8883官网AMG,主要从事有机光伏材料与器件方面的研究工作,聚焦研究高效率有机光伏器件,旨在澄清材料的构效关系和器件工作机理。基于该方向,主持/参与多项国家自然科学基金项目,入选2022年度科睿唯安“全球高被引科学家”和2021年度英国皇家化学学会TOP 1%高被引作者,受邀担任国际期刊《Polymers》编委。

个人主页:https://scholar.google.com/citations?user=_cCFy3EAAAAJ&hl=zh-CN



研究领域和方向

主要从事有机光伏材料与器件方面的研究工作,聚焦研究高效率有机光伏器件,旨在澄清材料的构效关系和器件工作机理

教育背景

2012/09-2017/06 北京交通大学 理学院 硕士&博士

工作履历

2020/04- 新葡萄8883官网AMG 新葡萄8883官网AMG 特别研究员
2018/03-2020/04 北京交通大学 电气工程学院 博士后

研究成果

以第一/通讯作者发表包括Energy Environ. Sci. (5); Angew. Chem., Int. Ed. (3); ACS Energy Lett. (2); Sci. Bull. (3); Adv. Function. Mater. (3); Nano Energy (4) 等高水平论文 30 篇, 包含8篇ESI高被引论文和3篇前封面论文。2篇论文获得Science Bulletin 2020/2021 Best Paper Award。论文共计被引7000余次,单篇论文最高被引500余次。
代表性论文:
1. Lu Yan, Heng Zhang, Qiaoshi An*, Mengyun Jiang, Asif Mahmood, Min Hun Jee, Hai-Rui Bai, Hong-Fu Zhi, Shaowen Zhang, Han Young Woo, and Jin-Liang Wang*, Regioisomer-Free difluoro-monochloro terminal-based hexa-halogenated acceptor with optimized crystal packing for efficient binary organic solar cells. Angewandte Chemie-International Edition, 2022, 134, e202209454.
2. Wei Gao, Mengyun Jiang, Ziang Wu, Baobing Fan, Wenlin Jiang, Ning Cai, Hua Xie, Francis R. Lin, Jingdong Luo, Qiaoshi An*, Han Young Woo,* and Alex K.-Y. Jen* Intramolecular chloro-sulfur interaction and asymmetric side-chain isomerization to balance crystallinity and miscibility in all-small-molecule solar cells. Angewandte Chemie-International Edition, 2022, 134, e202205168.
3. Lai Wang, Qiaoshi An*, Lu Yan, Hai-Rui Bai, Mengyun Jiang, Asif Mahmood, Can Yang, Hong-Fu Zhi, Jin-Liang Wang*. Non-fullerene acceptors with heterodihalogenated terminals induce significant difference in single crystallography and enable binary organic solar cells with 17.5% efficiency. Energy & Environmental Science, 2022, 15, 320-333.
4. Hai-Rui Bai, Qiaoshi An*, Hong-Fu Zhi, Mengyun Jiang, Asif Mahmood, Lu Yan, Ming-Qiao Liu, Yan-Qiang Liu, Yan Wang, and Jin-Liang Wang*, A random terpolymer donor with similar monomers enables 18.28% efficiency binary organic solar cells with well polymer batch reproducibility. ACS Energy Letters, 2022, 7, 3045.
5. Hai-Rui Bai, Qiaoshi An*, Mengyun Jiang, Hwa Sook Ryu, Jie Yang, Xue-Jiao Zhou, Hong-Fu Zhi, Can Yang, Xiong Li, Han Young Woo* and Jin-Liang Wang*. Isogenous Asymmetric-Symmetric Acceptors Enable Efficient Ternary Organic Solar Cells with Thin and 300 nm Thick Active Layers Simultaneously. Advanced Functional Materials, 2022, 32, 2200807.
6. Can Yang, Qiaoshi An,* Hai-Rui Bai, Hong-Fu Zhi, Hwa Sook Ryu, Asif Mahmood, Xin Zhao, Shaowen Zhang, Han Young Woo and Jin-Liang Wang*, A Synergistic Strategy of Manipulating the Number of Selenophene Units and Dissymmetric Central Core of Small Molecular Acceptors Enables Polymer Solar Cells with 17.5% Efficiency, Angewandte Chemie International Edition, 2021, 133, 19390. (ESI highly cited paper)
7. Mengyun Jiang, Hairui Bai, Hongfu Zhi, Lu Yan, Han Young Woo, Lijia Tong, Jinliang Wang,* Fujun Zhang* and Qiaoshi An*, Rational compatibility in a ternary matrix enables all-small-molecule organic solar cells with over 16% efficiency, Energy & Environmental Science, 2021, 14, 3945-3953. (Cover & ESI highly cited paper)
8. Mengyun Jiang, Hai-rui Bai, Hong-fu Zhi, Jian-ke Sun, Jin-liang Wang,* Fujun Zhang,* and Qiaoshi An*, Two-Pronged Effect of Warm Solution and Solvent-Vapor Annealing for Efficient and Stable All-Small-Molecule Organic Solar Cells, ACS Energy Letters. 2021, 6, 2898-2906.
9. Qiaoshi An,* Junwei Wang, Xiaoling Ma, Jinhua Gao, Zhenghao Hu, Bin Liu, Huiliang Sun*, Xugang Guo, Xiaoli Zhang and Fujun Zhang, Two compatible polymer donors contribute synergistically for ternary organic solar cells with 17.53% efficiency, Energy & Environmental Science, 2020, 13, 5039-5047. (ESI highly cited paper)
10. Qunping Fan, Qiaoshi An,* Yuanbao Lin, Yuxin Xia, Qian Li, Ming Zhang, Wenyan Su, Wenhong Peng, Chunfeng Zhang, Feng Liu, Lintao Hou, Weiguo Zhu, Donghong Yu, Min Xiao, Ellen Moons, Fujun Zhang,* Thomas D. Anthopoulos, Olle Inganäse and Ergang Wang*, Over 14% efficiency all-polymer solar cells enabled by a low bandgap polymer acceptor with low energy loss and efficient charge separation, Energy & Environmental Science, 2020, 13, 5017-5027. (ESI highly cited paper)