2004-2007  学士      物理系 - 光电子专业         麦考瑞大学   Macquarie University   澳大利亚 悉尼

2007-2008  荣誉学士(英联邦国家)   物理系 - 光电子专业       麦考瑞大学  Macquarie University   澳大利亚 悉尼   导师：J. Downes 教授

2009-2011  理学硕士   应用物理系 - 物理专业     香港理工大学  The Hong Kong Polytechnic University  中国 香港  导师：黄建雄 教授

2011-2015  博士  电子工程和计算机系 纳米电子团队  国立特文特大学  University of Twente  荷兰 恩斯赫德  导师：Michel de Jong 教授 和 W. G. van der Wiel 教授

2015.10 - 2018.12， 讲师，硕士生导师（破格）， 北京交通大学理学院，光电子技术研究所

2019.1 - 至今，副教授，北京交通大学理学院，光电子技术研究所

本人主要科研方向：有机自旋光电子学(organic spin-optoelectronics)是将有机光电子学(organic optoelectronics)和自旋光电子学(spin-optoelectronics)相结合的前沿交叉科学领域，该方向将电子的自旋极化特性作为信息载体，使其融入到有机半导体光电子材料与器件中，例如：自旋存储器件、光伏器件、发光器件，充分利用自旋极化电输运和磁场效应做为两大研究手段，探索该体系中与自旋态相关的各类新奇现象，例如：自旋注入、自旋输运、自旋调控，自旋探测、自旋界面、磁光电流、磁光致发光、磁电致发光、磁控介电，结合自旋电子学、光物理、光化学等相关理论研究，诠释该学科下的新发现、新机理、新技术，该领域在当代有机光电子学、纳米材料学、半导体物理学中占重要位置，也是现阶段国内外的研究热点和发展方向，现已拓展至有机-无机杂化钙钛矿以及手性钙钛矿材料。

• 有机光电子材料与器件
• 光电信息工程

• 光学工程硕士
• 光电信息工程硕士

主持和作为项目骨干成员承担国家自然科学基金青年基金、国家自然科学基金重点项目、国家自然科学基金面上项目、国家自然科学基金集成项目、科技部国家重点研发计划、中央高校基本科研业务费重点项目、河北省唐山市基础研究项目。

本科生课程：

大学物理 AI 新能源班（汉能学院、交通运输学院 全英文）

纳米物理 （理学院 纳米班 全英文）

研究生课程：

量子光学（全英文）

自2016年来，负责指导的本科毕设课题

于海川 (13275023)  利用阻抗谱来研究电荷载流子在聚合物光伏器件中的动态电子输运过程

魏钲轩(14275028)  有机-无机杂化钙钛矿单晶制备与光电子探测器机理性研究

孙浩文(15272013)   非富勒烯太阳能电池体系中与自旋相关的电子-空穴复合与解离的动力学控制

尹昭怡(15272052)   有机-无机杂化钙钛矿纳米线的制备及其在有机光伏器件中的应用

李媛(15272042)    通过阻抗谱研究准二维有机-无机杂化钙钛矿表面极化和复合效应

金蓓(16272007)   非富勒烯有机太阳能电池中与自旋态相关的物理过程 

陈恒政(16272032) 自旋极化电子在有机-无机杂化钙钛矿中的注入、输运、探测

陈其武(16272002) 高效率准二维锡基钙钛矿太阳能电池制备及其光伏性能退化机制研究 

阚利萱(17271144) 基于有机非富勒烯半导体材料的磁存储研究

李宏涛(18271036) 有机半导体中自旋注入和输运的理论研究 （获评校级优秀毕设论文）

林伟琛(19272012) 有机半导体磁光电流理论研究（获评校级优秀毕设论文）

罗马(19272014) 有机半导体介电响应理论研究

研究生培养：

硕士研究生 赵丰贵(17121600) 获在校期间“硕士一等学业奖学金”，获2019年“第十一届全国有机发光和光电性质学术会议” JPCL最佳墙报奖 《非富勒烯受体ITIC有机光伏体系中与自旋态相关的电子-空穴复合和解离过程》

硕士研究生 赵丰贵(17121600) 获2020年北京交通大学优秀硕士论文《非富勒烯有机太阳能电池中与自旋态相关的光伏过程》，物理学学科

硕士研究生 张彩霞(18121673) 获在校期间“硕士一等学业奖学金”，"2020 IOP Publishing & X-MOL Three Minutes Video Show, Excellent Participation Awards"、“2020 科研云 学术短视频大赛 优胜奖”

硕士研究生 张彩霞(18121673) 获2021年北京交通大学优秀硕士论文《非富勒烯有机光伏体系中自旋光电子研究》，光学工程学科

硕士研究生 张彩霞(18121673) 论文“非富勒烯有机太阳能电池研究进展：从器件物理到磁场效应”获《发光学报》2021年度最佳论文奖

硕士研究生 阚利萱(21121648) 获在校期间“硕士一等学业奖学金”

硕士研究生 阚利萱(21121648) 2022年第四届物理化学研究生前沿论坛中给与学术报告，荣获“最佳人气奖”

硕士研究生 阚利萱(21121648) 由英国皇家化学会 2023化学新星学术论坛，荣获“优胜奖”

硕士研究生 陶胜(21121656) 获2022年研究生创新项目1项 

硕士研究生 张湘鹏(22121687) 获在校期间“硕士一等学业奖学金”，主持2023年研究生创新项目1项

硕士研究生 李扬(22121668) 获在校期间“硕士一等学业奖学金”，主持2023年研究生创新项目1项

博士研究生 胡佳骥(21118017) 获2024年全国光学与光学工程博士生学术联赛 北京赛区优秀奖

博士研究生 潘睿亨(19118037) 论文 “Spinterfaces Manipulate Large Magnetic Field Effects in 3D and Quasi-2D Organic-Inorganic Hybrid Perovskites” 获第三十一届“慧光杯”研究生学术文化节论文三等奖

博士研究生 潘睿亨(19118037) 论文“有机-无机杂化钙钛矿中的自旋输运和磁场效应”获《发光学报》2021年度最佳论文奖

博士研究生 潘睿亨(19118037) 2022 Light博士生学术联赛 “磁场调控手性钙钛矿圆偏振发光” 优秀奖

博士研究生 潘睿亨(19118037) 获2021年研究生创新项目1项

博士研究生 祝熙翔(16118440) 获2017年“第17届中国光伏学术大会”优秀论文奖 《能量非均匀分布在有机体异质结太阳能电池中的研究》

大学生创新创业：

张家豪(17252026)、张湘鹏(18271147)，电荷载流子在非富勒烯半透明有机太阳能电池中的动态输运研究，项目编号：190170099，国家级 2019

张湘鹏(18271147)、张家豪(17252026)，非富勒烯受体材料的磁场效应研究，项目编号：200170012，北京市级 2020

李扬(18271130)、王字龙(18271140)、张睿颖(18271148), 低温恒温自旋输运测试平台建设，项目编号：200170075，北京市级 2020

张湘鹏(18271147)，2021年北京交通大学“挑战杯”大学生课外学术科技作品竞赛，三等奖

李扬(18271130)，2021年北京交通大学“挑战杯”大学生课外学术科技作品竞赛，三等奖

负责指导的留学生实习生：

Victor Avilez 法国图卢兹联邦大学 2016年3月 - 2016年8月 

      主要科研贡献

       [1]   针对有机半导体、反铁磁、铁磁-有机自旋界面、铁磁-钙钛矿自旋界面展开了一系列量子隧穿各向异性磁电阻以及自旋阀的研究，深入探索不同隧穿结体系下与自旋注入、自旋输运、自旋调控相关的物理过程，阐明界面形态与磁电阻线型的依赖关系和内在规律。

       [2]  针对二维手性有机-无机杂化钙钛矿展开了手性磁光效应研究，结合实验和激子态场致布局差理论，首次报道了手性钙钛矿单晶和薄膜的磁控光致发光效应，系统研究了手性钙钛矿中偏振光发射强度与磁场强度和温度的依赖关系。

       [3]  针对非富勒烯二元、三元有机体异质结体系，研究激发态下与自旋态相关极化子对的解离与复合过程，在高效稳定的有机光伏基础上，探索可见光范围内磁光电流效应，结合激发态下相干自旋混合理论，研究并区分高场和低场磁光电流发生机制，阐明了电荷转移态下极化子对在光伏行为中的重要角色，证实极化子对解离以及三线态-极化子反应在光伏行为中的重要机理。

一、期刊论文

       H-index (20) ResearchGate, H-index(22) GoogleScholar, ORCID 0000-0003-0594-9664; Total Citations ~ 2000次, 一作单篇最高他引80余次, 近5年单篇最高他引70余次。

1. Sheng Tao, et al prepared.

2. Jiaji Hu, et al prepared.

3. Jun Tang, et al submitted.

4. Lixuan Kan, et al. submitted.

5. Xiangpeng Zhang, et al. submitted.

6. Yuzhuo Zhang, Mingli Chen, Hong Li, Lei Hua, Zhennan Zhao, Haisong Zhao, Lixuan Kan, Xiao Chu, Kai Wang, Shouke Yan, and Zhongjie Ren*, Chiral Polyacetylene with Thermally Activated Delayed Fluorescence Feature for High-Performance Circularly Polarized Light Detector, Chemistry of Materials, (2024) Accepted 与北京化工大学任忠杰教授合作的工作。

7. Jiaji Hu, Lixuan Kan, Yongchao Xie, Xixiang Zhu, Haomiao Yu, Jinpeng Li, Fujun Zhang, Wubiao Duan, Kai Wang*, Exploring Photoexcited Spin States for Fullerene-Derivatives Based Organic Bulk Heterojunction Solar Cells Using Magneto-Photocurrent, Applied Physics Letters, 124, 083502 (2024). 美国物理联合会公众号: APL | 北京交通大学王恺：利用磁控光电流探索富勒烯衍生物有机体异质结太阳能电池中光激发自旋态 (qq.com)

8. Lixuan Kan, Jiaji Hu, Kai Wang*, Research Progresses on Magneto-photocurrent and Coherent Spin Mixing Theory in Nonfullerene Organic Bulk Heterojunctions, Chinese Journal of Luminescence, 45, 215-230 (2024).

9. Lidan Guo, Xianrong Gu, Shunhua Hu, Wenchao Sun, Rui Zhang, Yang Qin, Ke Meng, Xiangqian Lu, Yayun Liu, Jiaxing Wang, Peijie Ma, Cheng Zhang, Ankang Guo, Tingting Yang, Xueli Yang, Guorui Wang, Yaling Liu, Kai Wang, Wenbo Mi, Chuang Zhang, Lang Jiang, Luqi Liu, Kun Zheng, Wei Qin*, Wenjing Yan, Xiangnan Sun*, Strain-Restricted Transfer of Ferromagnetic Electrodes for Constructing Reproducibly Superior-Quality Spintronic Devices, Nature Communications, 15, 865 (2024). 与国家纳米中心孙向南教授合作的工作。

10. Sheng Tao, Lixuan Kan, Yang Li, Xiangpeng Zhang, Yongchao Xie, Jun Tang, Xixiang Zhu, Haomiao Yu, Jinpeng Li, Kai Wang*, Impact of Bychkov-Rashba Spin Splitting on Dual Emissions for Lead Halide Perovskite Nanowires, The Journal of Physical Chemistry Letters, (2023) Accepted. 由美国化学学会 ACS材料X独家报道：JPCL快讯 | Bychkov-Rashba自旋劈裂对卤化铅钙钛矿纳米线双发射的影响 (qq.com)

11. Jiaji Hu, Lixuan Kan, Weichen Lin, Xiangpeng Zhang, Wubiao Duan, Kai Wang*, Anisotropic Organic Magnetoresistance in Fused-Ring Electron Acceptors Based Bulk Heterojunction Systems, ACS Materials Letters, 5, 2058-2064 (2023) Accepted. 由美国化学学会 ACS材料X独家报道：ACS Materials Lett. | 有机自旋仿生学—稠环电子受体各向异性磁电阻研究 (qq.com)

12. Lidan Guo, Shunhua Hu, Xianrong Gu*, Rui Zhang, Kai Wang*, Wenjing Yan*, Xiangnan Sun*, Emerging Spintronic Materials and Functionalities, Advanced Materials, 2301854 (2023). 与国家纳米中心孙向南教授合作的工作

13. Ruiheng Pan, Sheng Tao, Kai Wang*, Zhi-Gang Yu*, Experimental and Theoretical Studies of Magnetic Circular Dichroism for Chiral Lead Halide Perovskites, Chemistry of Materials, 4, 1667-1673 (2023).

14. Ruiheng Pan, Xiantong Tang, Lixuan Kan, Yang Li, Haomiao Yu, Kai Wang*, Spin-Photogalvanic Effect in Chiral Lead Halide Perovskites, Nanoscale, 15, 3300-3308 (2023).

15. Lixuan Kan, Fenggui Zhao, Jiaji Hu, Sheng Tao, Ruiheng Pan, Wubiao Duan, Kai Wang*, Insights into Magneto-Photocurrent and Coherent Spin Mixing for Binary and Ternary Nonfullerene Bulk Heterojunction Organic Solar Cells, Chemistry of Materials, 34, 10113 (2022).

16. Ruiheng Pan, Jiaji Hu, Sheng Tao, Lixuan Kan, Haomiao Yu, Kai Wang*, Impact of Crystal Growth Diversity on Magneto-Photoluminescence and Circular Dichroism in Chiral Lead Halide Perovskites, Journal of Materials Chemistry C, 10, 16706 (2022).

17. Juqian Li, Lixuan Kan, Jiaji Hu, Sheng Tao, Ruiheng Pan, Haomiao Yu, Wubiao Duan, Kai Wang*, Invesigating Underlying Mechanisms for Nonfullerene Hybrid Bulk Heterojunctions Based Organic Magnetoresistance, Advanced Electronic Materials, 9, 2200983 (2022). “MaterialsViews China”推送：https://mp.weixin.qq.com/s/s1EmTWus9yS4MQfEqQNljA

18. Xiaojuan Sun, Changfeng Han, Kai Wang*, Surface Polarization and Recombination for Quasi-2D and 3D Methylammonium Lead Bromide Light Emitting Diodes, Applied Physics Letters, 120, 193501 (2022). This paper was selected as an Editor's Pick

19. Ruiheng Pan, Sheng Tao, Lixuan Kan, Jiaji Hu, Juqian Li, Yang Li, Xiangpeng Zhang, Kai Wang*, Tunable and Large Magneto-Photoluminescence for Single Crystalline Chiral Perovskites, Advanced Optical Materials, 10, 2200064 (2022). A short intro. in the Advanced Science News 北京交通大学王恺AOM：单晶手性钙钛矿中可调谐强磁光效应研究 (qq.com)

20. Hanjun Yang, Jun Tang, Liangliang Deng, Zhe Liu, Xia Yang, Zengqi Huang, Haomiao Yu, Kai Wang, Jinpeng Li*, Improved Highly Efficient Dion-Jacobson Type Perovskite Light-Emitting Diodes by Effective Surface Polarization Architecture, Physical Chemistry Chemical Physics, 24, 7969-7977 (2022). 

21. Ruiheng Pan, Kai Wang*, Zhi-gang Yu*, Magnteic-Field Manipulation of Circularly Polarized Photoluminescence in Chiral Perovskites, Materials Horizons 9, 740-747 (2022). 英国皇家化学会期刊RSC MH手性功能材料十佳论文之一。

22. Ningning Liang*, Guogang Liu, Deping Hu*, Kai Wang, Yan Li, Tianrui Zhai, Xinping Zhang, Zhigang Shuai, He Yan, Jianhui Hou, Zhaohui Wang*, Heavy-Atom-Free Room-Temperature Phosphorescent Rylene Imide for High-Performing Organic Photovoltaics, Advanced Science 9, 2103975 (2022). 与北京工业大学梁宁宁教授课题组、清华大学王朝晖教授课题组合作的工作

23. Zhe Liu, Xiaojuan Sun, Jun Tang, Jing Pan, Ruiheng Pan, Ling Xu, Kai Wang*, Impact of Surface Polarization and Ion Accumulation on electroluminescence for Methylammonium Lead Bromide Light Emitting Diodes, Applied Physics Letters 19, 163506 (2021). A short intro. in the Mat+  https://mp.weixin.qq.com/s/Jh_p_p23rXltDDY4rzEf7A

24. Xin Zhang, Linqing Qin, Xingzheng Liu, Caixia Zhang, Jianwei Yu, Zuo Xiao, Nan Zheng, Boxuan Wang, Yanan Wei, Zengqi Xie, Yishi Wu, Zhixiang Wei, Kai Wang*, Feng Gao, Liming Ding, Hui Huang*, Enhancing the Photovoltaic Performance of Triplet Acceptors Enabled by Side-Chain Engineering, Solar RRL 5, 2100522 (2021). 与中国科学院大学黄辉教授课题组合作的工作

25. Kaixuan Yang, Zijin Zhao, Ming Liu, Zhengji Zhou, Kai Wang, Xiaoling Ma, Jian Wang, Zhiqun He, Fujun Zhang*, Employing liquid crystal material as regulator to enhance performance of photomultiplication type polymer photodetectors, Chemical Engineering Journal 427, 131802 (2021). 与北京交通大学张福俊教授课题组合作的工作

26. Qi Zhang, Liying Pei, Jinpeng Li, Kai Wang, Qi Zeng, Haomiao Yu*, Achieving Band gap Reduction and Carrier Lifetime Enhancement in Metal Halide Perovskites via Mechanical Stretching, Journal of Physical Chemistry Letters 12, 7207-7212 (2021).

27. Caixia Zhang, Lixuan Kan, Juqian Li, Haomiao Yu, Jinpeng Li, Kai Wang*, Spin Dependent Polaron Pair Dissociation at Charge Transfer States Enables Low Driving Force for Nonfullerene Organic Photovoltaic System, Applied Physics Letters, 118, 233302 (2021).

28. Fenggui Zhao, Jiahao Zhang, Caixia Zhang, Juqian Li, Xiangpeng Zhang, Haomiao Yu, Jinpeng Li, Kai Wang*, Spin-Optoelectronic Phenomena for Semitansparent Nonfullerene Photovoltaic System, Solar RRL, 5, 2100207 (2021). 该文章被同时收录在Hot Topic: Magnetic Materials 中。

29. Ruiheng Pan, Kai Wang*, Yang Li, Haomiao Yu, Jinpeng Li, Ling Xu, Spinterfaces Manipulate Large Magnetic Field Effects in 3D and quasi-2D Organic-Inorganic Hybrid Perovskites, Advanced Electronic Materials, 7,  2100026 (2021).

30. Huayang Yu, Yulin Xie, Jia Zhang, Jiashun Duan, Xu Chen, Yudong Liang, Kai Wang, Ling Xu*, Thermal and Humidity Stability of Mixed Spacer Cations 2D Perovskite Solar Cells, Advanced Science, 9, 2201367 (2021). 与华中科技大学徐凌教授课题组合作的工作

31. Jinhua Gao, Xiaoling Ma, Chunyu Xu, Xuelin Wang, Jae Hoon Son, Sang Young Jeong, Yang Zhang, Caixia Zhang, Kai Wang, Lianbin Niu*, Jian Zhang*, Han Young Woo, Jian Zhang, Fujun Zhang*, Over 17.7% Efficiency Ternary-Blend Organic Solar Cells with Low Energy-Loss and Good Thickness-Tolerance, Chemical Engineering Journal, 428, 129276 (2021). 与北京交通大学张福俊教授课题组合作的工作

32. Liangliang Deng, Hanjun Yang, Zhe Liu, Xia Yang, Zengqi Huang, Haomiao Yu, Kai Wang, Jingpeng Li*, Effective Phase Control for High-Performance Red-Light-Emitting Quasi-2D Perovskite Solar Cells via MACl Additive, ACS Applied Energy Materials, 4, 2856-2863 (2021).

33. Liangliang Deng, Hanjun Yang, Ruiheng Pan, Haomiao Yu, Jinpeng Li, Ling Xu, Kai Wang*, Achieving 20% photovoltaic efficiency by magnanese doped methylammonium lead halide perovskites, Journal of Energy Chemistry, 60, 376-383 (2021).

34. Xiaoling Ma, Anping Zeng, Jinhua Gao, Zhenghao Hu, Chunyu Xu, Jae Hoon Son, Sang Young Jeong, Caixia Zhang, Mengyang Li, Kai Wang, He Yan, Zaifei Ma, Yongsheng Wang, Han Young Woo, and Funjun Zhang*, Approaching 18% efficiency of ternary organic photovoltaics with wide bandgap polymer donor and well compatible Y6:Y6-1O as acceptor, National Science Review, 国家科学评论，Accepted 2020. 与北京交通大学张福俊教授课题组合作的工作

35. Caixian Zhang, Xiangpeng Zhang, Jiahao Zhang, Kai Wang*, Advances in non-fullerene organic solar cells: from device physics to magnetic field effects, Chinese Journal of Luminescence, 非富勒烯有机太阳能电池研究进展：从器件物理到磁场效应，《发光学报》，Review Article, Accepted. 纪念创刊40周年专刊

36. Xiaojuan Sun, Changfeng Han, Zhe Liu, Ling Xu, Jinpeng Li, Haomiao Yu, Kai Wang,* Effectiveness of Solvent Vapor Annealing on Optoelectronic Properties for Quasi-2D Organic-Inorganic Hybrid Perovskite Light-Emitting Diodes, Journal of Physical Chemistry C, 124, 28417-28423 (2020).

37. Qi Zhang, Haomiao Yu,* Liying Pei, Jinpeng Li, Kai Wang, Jia Zhang, Miaosheng Wang, and Bin Hu* External field-tunable internal orbit-orbit interaction in flexible perovskites, Journal of Physical Chemistry Letters, 11, 10323-10328 (2020).

38. Chongguang Zhao, Fenggui Zhao, Kai Wang,* Haomiao Yu,* Tianyu Huang, Rui Wang, Caixia Zhang, Bin Hu,* and Lian Duan*, Stabilization of blue emitters with thermally activated delayed fluorescence by the steric effect: A case study of magnetic field effects, Physical Review Applied, 14, 034059 (2020). 与清华大学段炼教授课题组合作的工作

39. Caixia Zhang, Kai Wang,* Fenggui Zhao, Ruiheng Pan, Jiahao Zhang, Haomiao Yu, Jinpeng Li, Essential Relation of Spin States, Trap States and Photo-Induced Polarization for Efficient Charge Dissociation in a Polymer-Nonfullerene based Organic Photovoltaic System, Nano Energy 78, 105324 (2020).

40. Zhe Liu, Liangliang Deng, Hanjun Yang, Haomiao Yu, Kai Wang, Jinpeng Li*, Phase Modulation by Vacuum Poling towards Enhanced Performance of Quasi-Two-Dimensional Bromide Perovskite-Based Light Emitting Diodes, Journal of Physical Chemistry Letters, 11(18), 7583-7589 (2020).

41. Ruiheng Pan, Xiantong Tang, Jinpeng Li, Haomiao Yu, Bin Hu, Kai Wang*，Spin transport and magnetic field effects in organic-inorganic hybrid perovskites，Chinese Journal of Luminescence，有机-无机杂化钙钛矿中的自旋输运和磁场效应，《发光学报》Review Article 41(7), 753-769 (2020).

42. Linqing Qin, Xinzheng Liu, Xin Zhang, Jianwei Yu, Lei Yang, Fenggui Zhao, Miaofei Huang, Kangwei Wang, Xiaoxi Wu, Yuhao Li, Hao Chen, Kai Wang, Jianlong Xia, Xinhui Lu, Feng Gao, Yuanping Yu, and Hui Huang,* Triplet Acceptors with D-A Structure and Twisted Conformation for Efficient Organic Solar Cells, Angewandte Chemie 59, 15043-15049 (2020). 与中国科学院大学黄辉教授课题组合作的工作

43. Kaixuan Yang, Jian Wang,* Zijin Zhao, Fenggui Zhao, Kai Wang, Xiaoli Zhang, Fujun Zhang,* Ultraviolet to near-infrared broadband organic photodetectors with photomultiplication, Organic Electronics 83, 105739 (2020).

44. Fenggui Zhao, Liangliang Deng, Kai Wang,* et al, Surface Modification of SnO2 via MAPbI3 Nanowires for a Highly Efficient Non-Fullerene Acceptor based Organic Solar Cell, ACS Applied Materials & Interfaces 12, 5120-5127 (2020).

45. Liying Pei, Haomiao Yu,* Qi Zhang, Jinpeng Li, Kai Wang, Bin Hu,* Concave and Convex Bending Influenced Mechanical Stability in Flexible Perovskite Solar Cells, ACS The Journal of Physical Chemistry C 124, 2340-2345 (2020).

46. H. Yu, M. Wang, C. Han, K. Wang, B. Hu,* Mechanically Tuning Spin-Orbit Coupling Effects in Organic-Inorganic Hybrid Perovskites, Nano Energy, 67, 104285 (2020).

47. Hanjun Yang, Kai Wang,* et al, Manipulation of Dipolar Polarization at Steady States for a Quasi-Two Dimensional Organic-Inorganic Hybrid Perovskite with a Nanorod Network, Solar RRL, 3, 1900378 (2020).

48. Z. Zhao, J. Wang, C. Xu, K. Yang, F. Zhao, K. Wang, X. Zhang, F. Zhang,* Photomultiplication Type Broad Response Organic Photodetectors with One Absorber Layer and One Multiplication Layer, ACS The Journal of Physical Chemistry Letters, 11,  366-373 (2020).

49. H. Yu, Q. Zhang, Y. Zhang, K. Lu, C. Han, Y. Yang, K. Wang, X. Wang, M. Wang, J. Zhang, B. Hu*, Using Mechanical Stress to Investigate Rashba Effect in Organic-Inorganic Hybrid Perovskites, ACS The Journal of Physical Chemistry Letters, 10, 5446-5450 (2019).

50. Xixiang Zhu, Kai Wang,* et al. Exploring Deep and Shallow Trap States in a Non-Fullerene Acceptor ITIC based Organic Bulk Heterojunction Photovoltaic System, ACS The Journal of Physical Chemistry C 34, 20691-20697 (2019).

51. K. Wang,* Q. Yang, J. Duan, et al. Spin-Polarized Electronic Transport through Ferromagnet/Organic-Inorganic Hybrid Perovskite Spinterfaces at Room Temperature, Advanced Materials Interfaces 6, 1900718 (2019). 封面文章，https://onlinelibrary.wiley.com/doi/10.1002/admi.201970121 该文章被同时收录在Hot Topic: Magnetic Materials 中。

52. Q. Zhang, H. Yu,*, F. Zhao, L. Pei, J. Li, K. Wang, B. Hu,* Substrate-Dependent Spin-Orbit Coupling in Hybrid Perovskite Thin Films, Advanced Functional Materials, 29, 1904046 (2019).

53. Fenggui, Zhao, Kai Wang,* et al. Spin-Dependent Electron-Hole Recombination and Dissociation in Non-Fullerene Acceptor ITIC based Organic Photovoltaic Systems, Solar RRL, 3, 1900063 (2019).  封面文章, VIP 文章 https://onlinelibrary.wiley.com/doi/10.1002/solr.201970065

54. Hengxing Xu, Miaosheng Wang, Zhi Gang Yu, Kai Wang,* Bin Hu,* Magnetic Field Effects on Excited States, Charge Transport, and Electrical Polarization in Organic Semiconductors in Spin and Orbital Regimes, Advances in Physics 68, 49-121 (2019). 2017年影响因子：30.917

55. Q. Yang, Kai Wang,* et al Surface Polarization and Recombination in Organic-Inorganic Hybrid Perovskite Solar Cells based on Photo- and Electrically Induced Negative Capacitance Studies, Organic Electronics 62, 203-208 (2018).

56. X. Zhu, Kai Wang*, et al. Revisiting the Imapct of Interfacial Transport Layers on Organic Bulk Heterojunction Systems, ACS Applied Energy Materials 1, 3457-3468 (2018). 

57. C. Han, Z. Wei, K. Wang*, et al. Effect of Surface Recombination in High Performance White-light CH3NH3PbI3 Single Crystal Photodetectors, Optics Express 26, 26307-26316 (2018).

58. X. Sun, C. Han, K. Wang*, et al. Effect of BCP Organic Addictive on Optoelectronic Properties of Highly Efficient Methylammonium Lead Bromide Perovskite Light Emitting Diodes, ACS Applied Energy Materials,  1, 6992-6998  (2018). 杂志封面 Magazine Cover https://pubs.acs.org/pb-assets/images/_journalCovers/aaemcq/aaemcq_v001i012-3.jpg?0.5603182061881637

59. L. Deng, K. Wang,* et al. Polymer Assist Crystallization and Passivation for Enhancements of Open-circuit Voltage and Stability in Tin-Halide Perovskite Solar Cells, Journal of Physics D Applied Physics 51, 475102 (2018).

60. H. Yu, Q. Zhang, ..., K. Wang, B. Hu, Improving Photovoltaic Performance of Inverted Planar Structure Perovskite Solar Cells via Introducing Photogenerated Dipoles in the Electron Transport Layer, Organic Electronics, 63, 137-142 (2018).

61. Li Luan, Kai Wang*, Bin Hu, Sign Reversal of Magneto-capacitance in an Organic Heterojunction based Opto-Spintronic System, Journal of Materials Chemistry C, 6, 4671 (2018). 杂志封面 Magazine Cover https://pubs.rsc.org/en/content/articlelanding/2018/tc/c8tc90086h

62. Changfeng Han, Kai Wang*, et al, Unravelling Surface and Bulk Trap States in Lead Halide Perovskite Solar Cells Using Impedance Spectroscopy, Journal of Physics D Applied Physics (2018).

63. Lin Luan, Kai Wang, Ling Xu, Bin Hu, Magneto-Capacitance Induced by Optically Tunable Electron-hole Pairs in Organic Electronic Devices, Organic Electronics 49, 300-304 (2017).

64. Wenbin Wang, Fujun Zhang, Mingde Du, Lingliang Li, Miao Zhang, Kai Wang, Yongsheng Wang, Bin Hu, Ying Fang, and Jinsong Huang, Highly Narrowband Photomultiplication Type Organic Photodetectors, Nano Letters, 17, 1995-2002 (2017).

65. Mingxing Li, Ling Li, Rupam Mukherjee, Kai Wang, Qing Liu, Qiang Zou, Hengxing Xu, Jeremy Tisdale, Zheng Gai, Ilia N. Ivanov, David Mandrus, and Bin Hu, Magnetodielectric response from spin-orbital interacton occurring at interface of ferromagnetic Co and organometal halide perovskite layers via Rashba effect, Advanced Materials, 29, 1603667 (2017).

66. Kai Wang*, E. Strambini, J. G. M. Sanderink, T. Bolhuis, W. G. van der Wiel, and M. P. de Jong, The effect of orbital hybridization on spin-polarized tunneling across Co/C60 interfaces, ACS Applied Materials & Interfaces 8, 28349-28356 (2016) 杂志封面 Magazine Cover https://pubs.acs.org/pb-assets/images/_journalCovers/aamick/aamick_v008i042.jpg?0.27356664844088674

67. E. van Geijn, K. Wang and M. P. de Jong, Electronic and magnetic properties of TTF and TCNQ covered Co thin films,  AIP The Journal of Chemical Physics 144, 174708(2016).

68. K. Wang, J. G. M. Sanderink, T. Bolhuis, W. G. van der Wiel, and M. P. de Jong, Tunneling anisotropic magnetoresistance in an exchange coupled Co/CoO tunnel junction, Nature Scientific Reports 5, 15498(2015).  他引：15 次

69. K. Wang, J. G. M. Sanderink, T. Bolhuis, W. G. van der Wiel, and M. P. de Jong, Tunneling anisotropic magnetoresistance in C₆₀ based organic spintronic systems, Physical Review B 89, 174419 (2014). 他引：19 次

70. K. Wang, T. L. A. Tran, P. Brinks, J. G. M. Sanderink, T. Bolhuis, W. G. van der Wiel, and M. P. de Jong, Tunneling anisotropic magnetoresistance in Co/AlO_x/Al tunnel junctions with fcc Co (111) electrodes, Physical Review B 88, 054407 (2013). 他引：22 次

71. K. Wang and K. H. Wong, Growth of large grain polycrystalline silicon thin film on soda-lime glass at low temperature for solar cell applications, Cambridge Uni. Press Proc. MRS 1321, mrss11-1321-a06-12 (2011).

72. K. Wang and K. H. Wong, Low temperature processing of a large grain polycrystalline silicon thin film on soda-lime glass, Semiconductor Science and Technology 26, 095031 (2011).

73. K. Wang , G. Tai, K. H. Wong, S. P. Lau, and W. Guo, Ni induced few-layer graphene growth at low temperature by pulsed laser deposition, AIP Advances 1, 022141 (2011). 他引：70 次

74. G. Tai*, K. Wang*, Z. Sun, J. Yin, S. M. Ng, J. Zhou, F. Yan, C. W. Leung, K. H. Wong, W. Guo and S. P. Lau, Nonlithographic fabrication of crystalline silicon nanodots on graphene, The Journal of Physical Chemistry C 116, 532 (2011). (equal contributions)

75. H. F. Wong, K. Wang, C. W. Leung, and K. H. Wong, Magnetoresistance of manganite-cobalt ferrite spacerless junctions, IEEE Transactions on Magnetics 50, 1 (2014).

76. W. Zhang, S. Jiang, P. K. J. Wong, L. Sun, Y. K. Wang, K. Wang, M. P. de Jong, W. G. van der Wiel, G. van der Laan and Y. Zhai, Engineering gilbert damping by diluted Gd doping in soft magnetic Fe thin films, Journal of Applied Physics 115, 17A308 (2014).

77. P. K. J. Wong, W. Zhang, K. Wang, G. van der Laan, Y. Xu, W. G. van der Wiel, and M. P. de Jong, Electronic and magnetic structure of C60/Fe3O4(001): a hybrid interface for organic spintronics, Journal of Material Chemistry C 1, 1197 (2013).

78. J. Z. Xin, K. C. Hui, K. Wang, H. L. W. Chan, D. H. C. Ong, and C. W. Leung, Thermal tuning of surface plasmon resonance: Ag gratings on barium strontium titanate thin films, Applied Physics A - Materials Science & Processing, 107, 101(2012).

79. J. Burke, K. Wang, and A. Bramble, Null test of an off-axis parabolic mirror. I. Configuration with spherical reference wave and flat return surface, Optics Express 17, 3196 (2009).

80. J. Burke, K. Wang and A. Bramble, Testing of a diamond-turned off-axis parabolic mirror, Proc. SPIE 7063, 706312 (2008).

二、会议邀请报告

1. Kai Wang, 手性钙钛矿发光及磁光效应研究，第九届“钙钛矿材料与器件青年学者论坛”，西安，2023
2. Kai Wang, 手性钙钛矿磁光效应研究，第十届新型太阳能材料科学与技术学术研讨会，北京，2023
3. Kai Wang, 有机半导体和钙钛矿中的自旋输运和磁场效应，材料科学与工程学院，智能传感交叉中心系列论坛（线上），南开大学，2022
4. Kai Wang, 非富勒烯光伏自旋动力学研究，第九届新型太阳能材料科学与技术学术研讨会，北京，2022
5. Kai Wang, 有机自旋光电子研究：自旋输运和磁场效应，国家纳米科学中心，北京，2021
6. Kai Wang, Magnetic Field Effects in Organic Solar Cells, Advanced Materials Lecture Series, IAAM，瑞典，线上报告 2021
7. Ruiheng Pan, Kai Wang, 铁磁/有机-无机杂化钙钛矿自旋界面对磁场效应及磁电阻的调控，第八届新型太阳能材料科学与技术学术研讨会，中国 北京，2021
8. Kai Wang, 钙钛矿发光及柔性电子研讨会，江苏南京，南京工业大学，南京，2019
9. Kai Wang, Spinterfaces - Spin-polarized electronic transport through ferromagnet-organic hybrid interfaces, 自旋电子学物理、材料与器件大会, Spintronics Physics, Materials and Devices Conference, 山东 济南， 2018
10. Kai Wang, Spinterfaces - Spin transport through Co and C60 hybrid interfaces, International Conference on Optoelectronics and Microelectronics Technology and Application OMTA, 上海 2016
11. Kai Wang, C₆₀/Co spinterfaces, 2015 SpinTech Conference, 瑞士 巴塞尔, 2015.
12. Kai Wang, Spin transport through Co and C60 hybridized interface, SpinOS V, Himeji, 日本, 2014.
13. Kai Wang, Tunnelling anisotropic magnetoresistance in C60-based spin valves, Parallel session PA02 Nanoscience and technology I, PA02.09, 荷兰 埃因霍温, 2014.
14. Kai Wang, Spin transport and manipulation in C60 based spintronic devices, SpinOS IV, 英国 伦敦, 2012
15. Kai Wang, Spin polarized conduction in C₆₀ - based spintronic devices, Spintronics and spin phenomena I, poster 229, ICPS, 瑞士 苏黎世, 2012.
16. Kai Wang, Surface plasmon resonance of Ag gratings on barium strontium titanate thin films, Metamaterials, S-PO2-28, ICMAT, 新加坡, 2011.
17. Kai Wang, Growth of large grain polycrystalline silicon thin film on soda-lime glass at low temperature for solar cell applications, Amorphous and polycrystalline thin-film silicon science and technology, mrss11-1321-a06-12, MRS spring meeting, 美国, 2011.

三、学术毕业论文

K. Wang, Organic light emitting diode (OLED) fabrication and modification of OLED photoluminescence (PL) properties through photo-induced damage, 麦考瑞大学，悉尼，澳大利亚。

论文链接： Available , Automated Retrieval Collection Thesis (In-Library use) LG712.M42 TNC no 343

K. Wang, Investigation of metal-induced crystallization of silicon thin films and silicon based nanostructures, 香港理工大学，中国香港。

论文链接： https://theses.lib.polyu.edu.hk/bitstream/200/6708/1/b25300969.pdf

K. Wang, Cobalt/fullerene spinterfaces, University of Twente, 荷兰。

论文链接：http://doc.utwente.nl/97150/

1. 《有机自旋光电子》, 科学出版社 2020年12月；2018年国家出版基金资助，“十三五”国家重点出版物。 

2.  Advances in Graphene Science, Chapter 4 Laser Based Fabrication of Graphene, Advances in Graphene Science, DOI: 10.5772/55821, 2013. 他引：19 次

2006 年 获国际大学生金钥匙奖
2009 年 获得香港理工大学两年全额奖学金资助（哲学硕士研究），项目： J-BB9Q
2011 年 获得FOM四年全额奖学金资助（博士研究）, 项目：10PR2808

2016 年 北京交通大学 “青年教师教学研修班”考核优秀

2017 年、2019年，北京交通大学年终考核优秀

2017 年 获“2017年中国光学十大进展”奖，题目：具有超窄带响应的倍增型有机光电探测器

2021 年 北京交通大学 “校史中的党史故事”，教师校史讲述比赛优秀奖

2021 年 北京交通大学理学院 教师教学贡献奖二等奖

2021 年 获 “国际先进材料协会 科学家奖(IAAM Scientist Medal)”

2022 年 北京交通大学物理科学与工程学院 教师教学贡献奖二等奖

2022 年 北京交通大学本科毕业设计(论文)优秀指导教师

获《发光学报》2021年度优秀青年编委、及2021年度优秀审稿人

获《发光学报》2022年度优秀青年编委

Science, Nature系列，AIP, IOP, ACS, RSC 期刊审稿人

MDPI 《Magnetism》期刊编委

Frontiers in Chemistry 国际SCI期刊的 Review Editor 

中国物理学会发光分会《发光学报》第1，2届青年编委