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导航 个人简介 学习经历 工作经历 研究方向 主要论文 主要著作 承担课题,个人信息 姓名: 蔡婉珠 部门: 理工学院 直属机构: 物理学系 性别: 女 职务: 无 职称: 副教授 学位: 博士 毕业院校: 华南理工大学 联系电话: 保密 电子邮箱: wzhcai@jnu.edu.cn 办公地址: 蒙民伟理工楼717 通讯地址: 中国 广州市 黄埔大道西601号 邮编: 510632 传真: 无 联系方式 个人简介 蔡婉珠,女,副教授,本科毕业于华南理工大学应用物理学专业,博士毕业于华南理工大学材料物理化学专业,有近4年海外科研工作经验,2017年底入职暨南大学物理学系。国家一级登山运动员。至今在Science, Adv. Sci., Energy Environ. Sci., Adv. Funct. Mater., Small等国际权威学术期刊发表SCI论文40余篇,论文总引用次数>4000 次,H-因子24,先后曾有4 篇论文入选ESI高被引论文,曾获评中国百篇最具影响国际学术论文。已获中国专利授权4项,技术转化PCT专利1项。近五年承担国家、省部级等项目8项。担任Nano Energy等多个国际期刊审稿专家及国家自然科学基金评审专家。潜心教书育人,曾被评为暨大2021年“优秀本科生班主任”。近五年,累计指导本科生发表SCI学术论文2篇,获授权发明专利2项,竞赛获奖包括了国家级等竞赛奖项8项。 学习经历 交换生(2011年4月−2011年10月)美国阿克隆大学/材料工程系研究生(材料物理化学专业,2007年9月−2012年6月)华南理工大学材料科学与工程系本科(应用物理学专业,2003年9月−2007年7月)华南理工大学物理系 工作经历 副教授 (2017年12月至今)暨南大学 /理工学院物理学系博士后(2014年九月−2017年11月)瑞典Linköping University/物理化学生物系博士后(2012年七月−2014年七月)华南理工大学/发光材料与器件国家重点实验室 研究方向 基于有机共轭材料和二维钙钛矿的光电功能材料和器件,包括探索光电转化的新颖物理问题、发掘新型光电功能材料和器件结构、开发器件构建和材料聚集态调控的独特方法,致力于实现新一代光电器件的功能拓展、性能突破和实际应用。 主要论文 近期主要论文(* 通讯作者,& 共同一作)1. Li, B.; Huang, X.; Wu, X.; Zuo, Q.; Cao, Y.; Zhu, Q.; Li, Y.; Xu, Y.; Zheng, G. *; Chen, D.; Zhu, X.-H.; Huang, F.; Zhen, H.; Hou, L.; Qing, J.*; Cai, W.* High-Performing Quasi-2D Perovskite Photodetectors with Efficient Charge Transport Network Built from Vertically Orientated and Evenly Distributed 3D-Like Phases. Advanced Functional Materials2023, 2300216. https://doi.org/10.1002/adfm.202300216.2. Zhou, Z.&; Li, L. &; Li, B. &; Li, J.; Liu, T.; Huang, X.; Tang, S.; Qiu, H.; Cai, W.*; Zhang, S.; Li, K.; Xu, G.; Zhen, H.* N-Heterocyclic Olefin Type Ionic Liquid with Innate Soft Lewis-Base Character as an Effective Additive for Hybrid Quasi-2D and 3D Perovskite Solar Cells. Small2023, 2300013. https://doi.org/10.1002/smll.202300013.3. Li, Y.; Wu, X.; Zuo, G.; Wang, Y.; Liu, X. *; Ma, Y.; Li, B.; Zhu, X.-H. *; Wu, H.; Qing, J.; Hou, L.; Cai, W.* An N-n Heterojunction Configuration for Efficient Electron Transport in Organic Photovoltaic Devices. Advanced Functional Materials2022, 33, 2209728. 4. Luo, X.; Xue, Y.; Wu, J.; Cai, W.*; Täuber, D.*; Malovicho, I.; Sava, B.; Cen, G.; Lu, X.; Zhao, C.; Scheblykin, I. G.; Yu, J.; Mai, W.; Liu, F.; Wang, E.; Hou, L*. Intrinsic Polarization-Sensitive Organic Photodetector with Self-Assembled All-Polymer Heterojunction. Appl. Phys. Lett.2022, 121 (23), 233301. 5. Li, Y.; Wang, Y.; Zuo, Q.; Li, B.; Li, Y.; Cai, W.*; Qing, J.; Li, Y.; Liu, X.*; Shi, J.*; Hou, L.Improved Efficiency of Organic Solar Cell Using MoS2 Doped Poly(3,4-Ethylenedioxythiophene) (PEDOT) as Hole Transport Layer. Applied Surface Science2022, 590, 153042. 6. Tang, J.; Peng, L.; Chen, D.; Xie, J.; Chen, M.; Wu, J.; Hao, X.; Cai, W.*; Zheng, F. *; Shi, J.* Environmentally Responsive Intelligent Dynamic Water Collector. ACS Appl. Mater. Interfaces2022, 14 (1), 2202–2210.7. Lin, Z.; Guan, W.; Cai, W.*; Wang, L.; Wang, X.; He, Z.; Hou, L*. Effect of Anode Interfacial Modification on the Performance of Laminated Flexible ITO-Free Organic Solar Cells. Energy Science & Engineering2021, 9 (4), 502–508. 8. Guan, W.; Yuan, D.; Wu, J.; Zhou, X.; Zhao, H.; Guo, F.; Zhang, L.; Zhou, K.; Ma, W.; Cai, W.*; Chen, J.; Ding, L.; Hou, L*. Blade-Coated Organic Solar Cells from Non-Halogenated Solvent Offer 17% Efficiency. J. Semicond.2021, 42 (3), 030502–030504.9. Cai, W.; Osterberg, T.; Jafari, M. J.; Musumeci, C.; Wang, C.; Zuo, G.; Yin, X.; Luo, X.; Johansson, J.; Kemerink, M.; Ouyang, L.; Ederth, T.; Inganaes, O. Dedoping-Induced Interfacial Instability of Poly(Ethylene Imine)s-Treated PEDOT:PSS as a Low-Work-Function Electrode. J. Mater. Chem. C2020, 8 (1), 328–336. 10.Liu, A.; Zheng, W.; Yin, X.; Yang, J.; Lin, Y.; Cai, W.*; Yu, X.; Liang, Q.; He, Z.; Wu, H.; Li, Y.; Zhang, F.*; Hou, L*. Manipulate Micrometer Surface and Nanometer Bulk Phase Separation Structures in the Active Layer of Organic Solar Cells via Synergy of Ultrasonic and High-Pressure Gas Spraying. ACS Appl. Mater. Interfaces2019, 11 (11), 10777–10784. 11. Tang, Z.; Wang, J.; Melianas, A.; Wu, Y.; Kroon, R.; Li, W.; Ma, W.; Andersson, M. R.; Ma, Z. *; Cai, W. *; Tress, W. *; Inganas, O*. Relating open-circuit voltage losses to the active layer morphology and contact selectivity in organic solar cells. J. Mater. Chem. A 2018. 6(26), 12574-12581.12.Yang, J. Y.; Lin, Y. B.; Zheng, W. H.; Liu, A. L.; Cai, W.*; Yu, X. M.; Zhang, F. L.*; Liang, Q. B.; Wu, H. B.; Qin, D. H.; Hou, L.T*. Roll-to-roll Slot-die Printed Polymer Solar Cell by Self-Assembly. ACS Appl. Mater. Interfaces 2018. 10 (26), 22485-22494.13. Elfwing, A. F.&; Cai, W. &,*; Ouyang, L.*; Liu, X.; Xia, Y.; Tang, Z.; Inganäs*, O. DNA Based Hybrid Material for Interface Engineering in Polymer Solar Cells. ACS Appl. Mater. Interfaces 2018. 10 (11), 9579-9586. 14. You, G.; Li, L.; Wang, S.; Cao, J.; Yao, L.; Cai, W.; Zhou, Z.; Li, K.; Lin, Z.; Zhen, H.*; Ling, Q. Donor–Acceptor Type Polymer Bearing Carbazole Side Chain for Efficient Dopant-Free Perovskite Solar Cells. Advanced Energy Materials2021, 12, 2102697. 15. Liang, X.; Liu, Z.; Zhang, J.*; Chen, H.; Gu, Q.; Zhang, W.; Shen, C.; Xiao, Z.; Wang, Y.; Liao, J.; Wen, X.; Xie, J.; Yao, L.; Cai, W.; Mo, Y.; Qing, J.*; Su, S.*; Hou, L.* Promoting Energy Transfer Between Quasi‐2D Perovskite Layers Toward Highly Efficient Red Light‐Emitting Diodes. Small2022, 18 (49), 2204638.16. Cao, J.; Wang, L.; You, G.; Li, L.; Yao, L.; Zhou, Z.; Yang, E.*; Cai, W.; Ling, Q.; Zhen, H. * Dopant-Free, Hole-Transporting Polymers Containing Benzotriazole Acceptor Unit for Perovskite Solar Cells. Dyes and Pigments2022, 200, 110170. 17. Zhao, H.; Wang, L.; Wang, Y.; Su, W.; Lin, D.; Cai, W.; Qing, J.; Zhang, Z.; Zhong, J.; Hou, L.* Solvent-Vapor-Annealing-Induced Interfacial Self-Assembly for Simplified One-Step Spraying Organic Solar Cells. ACS Appl. Energy Mater.2021, 4 (7), 7316–7326. 18. Li, X.; Wu, S.; Zhang, G.; Cai, W.; Ng, J.; Ma, G.* Measurement of Corner-Mode Coupling in Acoustic Higher-Order Topological Insulators. Frontiers in Physics2021, 9, 635. 19. Yin, X.; Wang, J.; Liu, A.; Cai, W.; Ying, L.; He, X.; Tang, Z. *; Hou, L.* Flexible ITO-Free Sky-Blue Polymer Light-Emitting Diodes and Printed Polymer Solar Cells Based on AgNW/PI Transparent Conductive Electrode. Flex. Print. Electron.2020, 5 (1), 014003. 20. Lin, Y.; Dong, S.; Li, Z.; Zheng, W.; Yang, J.; Liu, A.; Cai, W.; Liu, F.*; Jiang, Y.; Russell, T. P.; Huang, F.; Wang, E.*; Hou, L.* Energy-Effectively Printed All-Polymer Solar Cells Exceeding 8.61% Efficiency. Nano Energy 2018, 46, 428–435. 主要著作 《Emerging Photovoltaic Technologies: Photo-physics and Devices》 Chapter 1 Fullerene-based Organic Solar Cells 讲授课程 本科专业必修课《光学》、硕士研究生必修课《高等物理实验方法》本科专业选修课《物性与结构》,《有机光电功能材料》,《太阳电池器件基础》等