宁志军

时间:2020-05-26浏览:32223设置

宁志军 Zhijun Ning 光电材料与器件课题组 Optoelectronic Materials and Devices Lab


课题组长 Principle Investigator


宁志军,副教授(Tenured)、研究员,Associate Professor(Tenured)

bat365中文官方网站,School of Physical Science, ShanghaiTech University,

通讯地址 Address:上海市浦东新区华夏中路393号bat365中文官方网站五号楼205J室,393 Huaxiazhong Road, Pudong, Shanghai, China, 201210

电子邮箱 Email:ningzhj@shanghaitech.edu.cn

教育及工作经历 Experiences:

2020.12-to date, Associate Professor (Tenured), Principle Investigator, ShanghaiTech University

2014.12-2020.12, Assistant Professor (Tenure track), Principle Investigator, ShanghaiTech University

2011.7-2014.12, Postdoc, University of Toronto, Canada (Supervisor: Prof. Edward H. Sargent)

2009.4-2011.6, Postdoc, Royal Institute of Technology, Sweden (Supervisor: Prof. Hans Agren, Prof. Ying Fu)

2009.3, PhD, Department of Applied Chemistry, East China University of Science and Technology (Supervisor: Prof. He Tian)



研究兴趣 Research 

Researcher ID: https://publons.com/researcher/1787157/zhijun-ning/


课题组的研究领域为基于溶液法组装的光电转化材料与器件,针对溶液法组装光电材料与器件中的电荷输运、光吸收与发射等基础问题,从材料设计与合成、纳米结构制备、器件结构等角度来展开研究,协同新材料的开发以及器件结构构筑来开发高效稳定光电器件,包括钙钛矿太阳能电池和发光二极管、胶体量子点红外探测器等,侧重锡钙钛矿太阳能电和胶体量子点红外探测器两个方面。


课题组长宁志军教授入选万人计划领军人才,上海市优秀学术带头人,获得霍英东教育基金会高等院校青年科学奖,连续入选科睿唯安高被引科学家,担任Cell Report Physical Science顾问编委、ACS Materials LettersEarly Career Advisory Board MemberScience BulletinScience China Chemistry青年编委。2017年获得上海市自然科学一等奖(排名第四),2015年入选国家级青年人才计划。


Our group work on solution processed optoelectronic materials and devices. Using materials design and synthesis, nanostructure fabrication, and device engineering to address the challenges of carriers transport, light harvesting and emission in optoelectronic devices including solar cells, photodetectors, light emitting diodes, as well as photocatalysts. Currently our group mainly work on tin perovskite solar cells and light emitting diodes, quantum dot infrared photodetectors. 


Principle investigator Zhijun Ning is selected as Highly cited researcher of Clarivate Analytics, Web of Science (2018, 2019). He serves as Advisory Board Member of Cell Report Physical Science; Early Career Advisory Board Member of ACS Materials Letters; Young Editor of Science Bulletin; Young Editor of Science China Chemistry.  


光电材料与器件是一个交叉学科领域,需要综合运用化学、材料、物理、器件等方面的知识,从多个角度理解其工作机理,从材料和器件两个方面出发来探索提高器件性能的方法。开发新材料和器件就是一个探索未知世界的旅程,喜欢探索的乐趣,欣赏旅途中的风景,这样即使在忙碌的时候,科研也不会枯燥和艰辛。欢迎化学、材料、电子工程、物理等专业有志于从事光电材料与器件这一蓬勃发展的交叉学科领域、对科研具有浓厚兴趣的同学加入课题组。


We cordially welcome students who are interested in interdisciplinary research and devote to working on optoelectronic materials and devices join our group. It is anticipated that students are majored in one of the following fields: Chemistry, Material Physics, Material Chemistry, Electrical Engineering, Physics.




组内动态 Group News


33. Nature Energy发表:基于锡基钙钛矿“表面冷冻”策略制备高效太阳能电池 

32. bat365中文官方网站宁志军教授入选2023年度全球“高被引科学家”名单 

31. 人才招聘:为配合学校材料专业双一流学科建设,课题组招聘钙钛矿太阳能电池和量子点红外探测器方向博士后;同时招聘实验技术员负责课题组实验仪器的维护以及实验的准备,待遇从优,感兴趣者请发邮件至ningzhj@@shanghaitech.edu.cn


30. 科研进展 | bat365中文官方网站宁志军组窄带隙钙钛矿太阳能电池研究取得新进展

29. bat365中文官方网站宁志军课题组《ACS AMI》:基于电荷自限效应的红外量子点倍增光电探测器

28. 祝贺李晗升、魏旗、马鸣宇获得上海市大学生新材料创新创意大赛一等奖

27.手性分子设计调控钙钛矿自旋劈裂——通过局域场调控实现巨大自旋劈裂能

26. 科学网:上科大开发新策略实现效率为14.6%的锡钙钛矿太阳能电池

25. 上科大bat365中文官方网站宁志军组在无机锡钙钛矿太阳能电池研究中取得重要进展

24.姜显园和王飞的文章入选Top 50 Nature Communications chemistry and materials science articles published in 2020


23. Accounts of Materials Research:薄膜太阳能电池家族的新成员:锡钙钛矿太阳能电池

Tin Halide Perovskite Solar Cells: An Emerging Thin-Film Photovoltaic Technology

新赛道!bat365中文官方网站宁志军课题组综述推荐:锡基太阳能电池

22. bat365中文官方网站宁志军课题组开发高效工况稳定钙钛矿太阳能电池 (准无机壳层结构钙钛矿太阳能电池)

Cs0.15FA0.85PbI3/CsxFA1-xPbI3 Core/Shell Heterostructure for Highly Stable and Efficient Perovskite Solar Cells

Cell press 报导:上海科大宁志军课题组开发高效稳定的钙钛矿太阳能电池


21. Small: 集成结构胶体量子点红外探测器研究进展

Integrated Structure and Device Engineering for High Performance and Scalable Quantum Dot Infrared Photodetectors


20. 基于氧化镍基底的高效Sn-Pb共混钙钛矿太阳能电池(18.8%)

Band alignment towards high-efficiency NiOx-based Sn-Pb mixed perovskite solar cell


19. 二维锡卤素钙钛矿LED:更标准的红光

Two-dimensional tin perovskite nanoplate for pure red light-emitting diodes


18. 我校宁志军课题组制备高效量子点上准换探测器,让我们“看见红外光”

Solution-processed upconversion photodetector based on quantum dots

Techxplore报道: Highly efficient solution-processed upconversion photodetectors based on quantum dots

两江科技评论: 高效量子点上转化探测器让我们“看见红外光”


17. 我校宁志军课题组在锡基钙钛矿太阳能电池研究中取得系列进展

Ultra-high open-circuit voltage of tin perovskite solar cells via an electron transporting design

科技部报道:我国科学家在锡基钙钛矿太阳能电池方面取得重要进展

Nature自然科研报道:富勒烯衍生物助力高开路电压锡基钙钛矿太阳能电池


16. 我校bat365中文官方网站宁志军教授入选“2019高被引科学家”名单


15. 宁志军课题组和合作者开发高效稳定反式结构钙钛矿电池

Efficient and stable Inverted Perovskite Solar Cells Incorporating Secondary Amines

知社学术圈报道: 上科大Adv Mat封面:仲胺分子助力高效稳定钙钛矿电池开发


14. 中国科学院第113期交叉学科论坛“基于溶液法组装的下一代硅基红外光电探测器”在上海举行


13. bat365中文官方网站联合团队开发杂化钙钛矿电致发光器件稳定性提升新策略

Highly stable hybrid perovskite light-emitting diodes based on Dion-Jacobson structure

纳米人报道:高稳定性!基于DJ结构的钙钛矿LED


12. Stability improvement under high efficiency—next stage development of perovskite solar cells

中国科学杂志社报道:韩礼元、宁志军、韩宏伟、孟庆波:钙钛矿太阳能电池发展的现状和趋势


11. 我校宁志军教授入选“2018高被引科学家“名单

Highly Cited Researchers 2018


10. bat365中文官方网站宁志军课题组在高效率锡基钙钛矿太阳能电池研究上取得重要突破

2D-Quasi 2D-3D Hierarchy Structure for Tin Perovskite Solar Cells with Enhanced Efficiency and Stability

纳米人报道:Joule:梯度结构提升锡钙钛矿太阳能电池效率至9.4%!



9. 过饱和度调控晶体生长用于高效MAFAPbI3钙钛矿太阳能电池的制备

Supersaturation controlled growth of MAFAPbI3perovskite film for high efficiency solar cells

纳米人报道:过饱和度调控晶体生长用于高效MAFAPbI3钙钛矿太阳能电池的制备


8. 胶体量子点发光二极管中的表面工程和器件设计

Colloidal quantum-dots surface and device structure engineering forhigh-performance light-emitting diodes

科学网报道:综述:胶体量子点发光二极管中的表面工程和器件设计


7. bat365中文官方网站宁志军组研发出高效率反结构量子点太阳能电池模型

Highly Efficient Inverted Structural Quantum Dot Solar Cells

材料人报道:Adv. Mater.:高效率倒置结构量子点太阳能电池


6. bat365中文官方网站宁志军教授与合作者开发高效红光钙钛矿量子点发光二极管

Bidentate Ligand-Passivated CsPbI3 Perovskite Nanocrystals for Stable Near-Unity Photoluminescence Quantum Yield and Efficient Red Light-Emitting Diodes

X-MOL报道:双齿配体有效提高无机钙钛矿纳米晶的稳定性和电致发光器件的效率


5. 钙钛矿太阳能电池上海研讨会暨国家重点研发计划“高稳定性、全光谱、高效率太阳能电池材料探索和器件实现”项目2017年项目研讨会在我校举行


4. bat365中文官方网站宁志军组研发出高稳定性锡钙钛矿太阳能电池

Highly-oriented low-dimensional tin halide perovskites with enhanced stability and photovoltaic performance

Highlighted by JACS Young Investigator virtue issue


3. 我校召开国家重点研发计划青年项目“高稳定性、全光谱、高效率太阳能电池材料探索和器件实现”启动会


2. bat365中文官方网站宁志军课题组研发出高效率、宽光谱、低毒的光催化产氢材料


0D–2D Quantum Dot: Metal Dichalcogenide Nanocomposite Photocatalyst Achieves Efficient Hydrogen Generation


1. 我校bat365中文官方网站科研团队获得首批“国家重点研发计划纳米专项青年科学家项目”支持





课题组照片 Group Pictures


2023年合照



2022年合照


2020年合照

2019年合照

2019年烧烤

2017年合照

2017年秋游

2016年合照

2015年合照



发表文章 Publications

2024

133. Electron-withdrawing organic ligand for high-efficiency all-perovskite tandem solar cells. Yu, Danni, Mengling Pan, Gaoqi Liu, Xianyuan Jiang, Xin Wen, Wenzhuo Li, Shaojie Chen, Wenjia Zhou, Hao Wang, Yue Lu, Mingyu Ma, Zihao Zang, Peihong Cheng, Qingqing Ji, Fan Zheng, and Zhijun Ning*Nature Energydoi.org/10.1038/s41560-023-01441-2.   

132. Surface heterojunction based on n-type low dimensional perovskite film for highly efficient perovskite tandem solar cells. Jiang, Xianyuan, Qilin Zhou, Yue Lu, Hao Liang, Wenzhuo Li, Qi Wei, Mengling Pan, Xin Wen, Xingzhi Wang, Wei Zhou, Danni Yu, Hao Wang, Ni Yin, Hao Chen, Hansheng Li, Ting Pan, Mingyu Ma, Gaoqi Liu, Wenjia Zhou, Zhenhuang Su, Qi Chen, Fengjia Fan, Fan Zheng, Xingyu Gao, Qingqing Ji*, and Zhijun Ning*National Science Review. doi.org/10.1093/nsr/nwae055.

2023

131. Surface Energy Regulated Growth of α‐phase Cs0.03FA0.97PbI3 for Highly Efficient and Stable Inverted Perovskite Solar Cells. Ting Pan, Wei Zhou, Qi Wei, Zijian Peng, Hao Wang, Xianyuan Jiang, Zihao Zang, Hansheng Li, Danni Yu, Qilin Zhou, Mengling Pan, Wenjia Zhou, Zhijun Ning*Advanced Materials2023, doi.org/10.1002/adma.202208522.

130.Quantum-Tuned Cascade Multijunction Infrared Photodetector. Zhou, Wenjia, Rui Xu, Haobo Wu, Xianyuan Jiang, Hao Wang, F. Pelayo García de Arquer*, and Zhijun Ning*ACS Nano2023, 17, 18864-18872. 

129. In-situ growth of low-dimensional perovskite-based insular nanocrystals for highly efficient light emitting diodes. Hao Wang, Weidong Xu, Qi Wei, Si Peng, Yuequn Shang, Xianyuan Jiang, Danni Yu, Kai Wang, Ruihua Pu, Chenxi Zhao, Zihao Zang, Hansheng Li, Yile Zhang, Ting Pan, Zijian Peng, Xiaoqin Shen, Shengjie Ling, Weimin Liu, Feng Gao*, Zhijun Ning*Light: Science & Applications2023, 12, 1, 62.

128. High-member low-dimensional Sn-based perovskite solar cells. Hansheng Li, Zihao Zang, Qi Wei, Xianyuan Jiang, Mingyu Ma, Zengshan Xing, Jingtian Wang, Danni Yu, Fei Wang, Wenjia Zhou, Kam Sing Wong, Philip CY Chow, Yuanyuan Zhou*, Zhijun Ning*Science China Chemistry2023,  66, 459–465.

127. Highly Efficient Tin Perovskite Solar Cells Based on a Triple Reactant Strategy. Jiang, Xianyuan, Zihao Zang, Mingyu Ma, Jingtian Wang, Hao Wang, and Zhijun Ning*, ACS Photonics, 202310, 1992-1998.

126. Symmetry-Broken 2D Lead–Tin Mixed Chiral Perovskite for High Asymmetry Factor Circularly Polarized Light Detection. Bing Yao, Qi Wei, Yunqing Yang, Wenjia Zhou, Xianyuan Jiang, Hao Wang, Mingyu Ma, Danni Yu, Yingguo Yang,  Zhijun Ning*Nano Letters2023, 23, 5, 1938–1945.

125. Tutorial: Lead sulfide colloidal quantum dot infrared photodetector. Haobo Wu, Zhijun Ning*Journal of Applied Physics2023, 133, 4, 041101.

124. Ligand Engineering in Tin-Based Perovskite Solar Cells. Li, Peizhou, Xiangrong Cao, Jingrui Li, Bo Jiao, Xun Hou, Feng Hao, Zhijun Ning, Zuqiang Bian, Jun Xi*, Liming Ding*, Zhaoxin Wu*, and Hua Dong, Nano-Micro Letters2023, 15, 167. 

123. Synergic Electron and Defect Compensation Minimizes Voltage Loss in Lead-Free Perovskite Solar Cells. Liu, Gengling, Xianyuan Jiang, Wenhuai Feng, Guo Yang, Xi Chen, Zhijun Ning, and Wu-Qiang Wu*Angewandte Chemie International Edition202362, e202305551. 

122. From tetragonal to cubic: perovskite phase structure evolution for high-performance solar cells. Qi Wei, Hao Liang, Yuki Haruta, Makhsud Saidaminov, Qixi Mi, Michael Saliba, Guanglei Cui, Zhijun Ning*Science bulletin2023, DOI: 10.1016/j.scib.2023.01.008.

121. Improved Structural Order and Exciton Delocalization in High-Member Quasi-Two-Dimensional Tin Halide Perovskite Revealed by Electroabsorption Spectroscopy. Xing, Zengshan, Zihao Zang, Hansheng Li, Zhijun Ning*, Kam Sing Wong*, and Philip C. Y. Chow*The Journal of Physical Chemistry Letters2023, 14, 4349-4356. 

120. Minimizing buried interfacial defects for efficient inverted perovskite solar cells. Zhang, Shuo, Fangyuan Ye, Xiaoyu Wang, Rui Chen, Huidong Zhang, Liqing Zhan, Xianyuan Jiang, Yawen Li, Xiaoyu Ji, Shuaijun Liu, Miaojie Yu, Furong Yu, Yilin Zhang, Ruihan Wu, Zonghao Liu, Zhijun Ning, Dieter Neher, Liyuan Han, Yuze Lin, He Tian, Wei Chen*, Martin Stolterfoht*, Lijun Zhang*, Wei-Hong Zhu*, and Yongzhen Wu*Science2023, 380, 404-409. 

119. Recent progress in perovskite solar cells: material science. Shao, Jiang-Yang, Dongmei Li, Jiangjian Shi, Chuang Ma, Yousheng Wang, Xiaomin Liu, Xianyuan Jiang, Mengmeng Hao, Luozheng Zhang, Chang Liu, Yiting Jiang, Zhenhan Wang, Yu-Wu Zhong*, Shengzhong Frank Liu*, Yaohua Mai*, Yongsheng Liu*, Yixin Zhao*Zhijun Ning*, Lianzhou Wang*, Baomin Xu*, Lei Meng*, Zuqiang Bian*, Ziyi Ge*, Xiaowei Zhan*, Jingbi You*, Yongfang Li*, and Qingbo Meng*Science China Chemistry2023,66, 10-64 . 

118. Neglected Acidity Pitfall: Boric Acid-Anchoring Hole-Selective Contact for Perovskite Solar Cells. Huanxin Guo, Cong Liu, Honglong Hu, Shuo Zhang, Xiaoyu Ji, Xiao-Ming Cao,  Zhijun Ning, Wei-Hong Zhu, He Tian, Yongzhen Wu*, National Science Review, 2023, DOI: 10.1093/nsr/nwad057.

2022

117. Quantum-size-tuned heterostructures enable efficient and stable inverted perovskite solar cells. Hao Chen, Sam Teale, Bin Chen, Yi Hou, Luke Grater, Tong Zhu, Koen Bertens, So Min Park, Harindi R. Atapattu, Yajun Gao, Mingyang Wei, Andrew K. Johnston, Qinlin Zhou, Kaimin Xu, Danni Yu, Congcong Han, Teng Cui, Eui Hyuk Jung, Chun Zhou, Wenjia Zhou, Andrew H. Proppe, Sjoerd Hoogland, Frederic Laquai, Tobin Filleter, Kenneth R. Graham, Zhijun Ning*, Edward H. Sargent*, Nature Photonics2022, 16, 5, 352-358.

116. Quasi-2D Bilayer Surface Passivation for High Efficiency Narrow Bandgap Perovskite Solar Cells. Danni Yu, Qi Wei, Hansheng Li, Junhan Xie, Xianyuan Jiang, Ting Pan, Hao Wang, Mengling Pan, Wenjia Zhou, Weimin Liu, Philip C. Y. Chow, Zhijun Ning*Angewandte Chemie International Edition2022, 61, 20, e202202346.

115. Large Photomultiplication by Charge-Self-Trapping for High-Response Quantum Dot Infrared Photodetectors. Kaimin Xu, Liang Ke, Hongbin Dou, Rui Xu, Wenjia Zhou, Qi Wei, Xinzuo Sun, Hao Wang, Haobo Wu, Lin Li*, Jiamin Xue, Baile Chen, Tsu-Chien Weng, Li Zheng, Yuehui Yu, Zhijun Ning*ACS Applied Materials and Interfaces2022, 14, 12, 14783-4790.

114. The 3D-structure-mediated growth of zero-dimensional Cs4SnX6 noncrystals. Kaimin Xu, Qi Wei, Hao Wang, Bing Yao, Wenjia Zhou, Rong Gao, Hao Chen, Hansheng Li, Jingtian Wang, Zhijun Ning*Nanoscale2022, 14, 2248-2255.

113. Strategies for enhancing the stability of metal halide perovskite towards robust solar cells. Wei Zhou, Ting Pan,  Zhijun Ning*Science China Materials2022, 65, 3190–3201.

112. Chances and challenges for tin perovskites. Qi Wei, Hansheng Li, Zhijun Ning*Trends in Chemistry2022, 4, 1, 1-4.

111. Mean-field approach for Anderson-type off-diagonal disorder. Qi Wei, Jianxiong Zhai, Zhijun Ning, Youqi Ke*Physical Review B, 2022, 106, 21, 214205.

110. Recent progress in perovskite solar cells: material science. Jiang-Yang Shao, Dongmei Li, Jiangjian Shi, Chuang Ma, Yousheng Wang, Xiaomin Liu, Xianyuan Jiang, Mengmeng Hao, Luozheng Zhang, Chang Liu, Yiting Jiang, Zhenhan Wang, Yu-Wu Zhong*, Shengzhong Frank Liu*, Yaohua Mai*, Yongsheng Liu*, Yixin Zhao*,  Zhijun Ning*, Lianzhou Wang*, Baomin Xu*, Lei Meng*, Zuqiang Bian*, Ziyi Ge*, Xiaowei Zhan*, Jingbi You*, Yongfang Li*, Qingbo Meng*, Science China Chemistry, 2022, 66, 10–64.

109. Difluorine‐Substituted Molecule‐Based Low‐Dimensional Structure for Highly Stable Tin Perovskite Solar Cells. Mingyuan Sun, Mingyu Ma, Yang Guo, Songyang Yuan, Hui Xiong, Ziyu Tan, Wenzhe Li*, Jiandong Fan*,  Zhijun Ning*Solar RRL, 2022, 6, 11, 2200672.

108. Focused ion beam preparation of halide perovskite microscopy specimens: evaluation of the beam induced damage. Yuan Lu, Hao Wang, Yi Chen, Xiangchen Hu, Letian Dou, Qixi Mi,  Zhijun Ning, Yi Yu*, Journal of Physics: Condensed Matter, 2022, 34, 41, 414004.

107. Ionic Liquid‐Tuned Crystallization for Stable and Efficient Perovskite Solar Cells. Junhui Ran, Hao Wang, Wen Deng, Haipeng Xie, Yongli Gao, Yongbo Yuan, Yingguo Yang, Zhijun Ning, Bin Yang*, Solar RRL, 2022, 6, 7, 2200176.

106. Smooth and Compact FASnI3 Films for Lead-Free Perovskite Solar Cells with over 14% Efficiency.Zihao Zhu, Xianyuan Jiang, Danni Yu, Na Yu, Zhijun Ning, Qixi Mi*, ACS Energy Letters, 2022,7, 6, 2079-2083.


2021年

105. One-Step Synthesis of SnI2·(DMSO)x Adducts for High-Performance Tin Perovskite Solar Cells. Xianyuan Jiang, Hansheng Li, Qilin Zhou, Qi Wei, Mingyang Wei, Luozhen Jiang, Zhen Wang, Zijian Peng, Fei Wang, Zihao Zang, Kaimin Xu, Yi Hou, Sam Teale, Wenjia Zhou, Rui Si, Xingyu Gao, Edward H Sargent, Zhijun Ning*, Journal of the American Chemical Society, 2021, 143, 29, 10970-10976.

104. Low-Dimensional Inorganic Tin Perovskite Solar Cells Prepared by Templared Growth. Hansheng Li, Xianyuan Jiang, Qi Wei, Zihao Zang, Mingyu Ma, Fei Wang, Wenjia Zhou, and Zhijun Ning*, Angewandte Chemie International Edition, 2021, 60, 16330-16336.

103. Silicon: quantum dot photovoltage triodes. Wen Zhou, Li Zheng*, Zhijun Ning*, Xinhong Cheng, Fang Wang, Kaimin Xu, Rui Xu, Zhongyu Liu, Man Luo, Weida Hu, Huijun Guo, Wenjia Zhou & Yuehui Yu, Nature Communications, 2021, 12, 6696.

102. Tin Halide Perovskite Solar Cells: An Emerging Thin-Film Photovoltaic Tchnology, Xianyuan Jiang, Zihao Zang, Yuanyuan Zhou, Hansheng Li, Qi Wei, Zhijun Ning*, Accounts of Materials Research, 2021, 2(4), 210-219.

101. Dehydration-Reaction-Based Low-Temperature Synthesis of Amorphous SnOx for High-Performance Perovskite Solar Cells. Yuequn Shang, Tingting Zhang, Danni Yu, Zijian Peng, Wenjia Zhou, Dongguang Yin*, and Zhijun Ning*, ACS Applied Materials and Interfaces, 2021. 13. 40. 47603-47609.

100. Chiral Perovskite Spin-Optoelectronics and Spintronics: Toward Judicious Design and Application. Qi Wei, Zhijun Ning*, ACS Materials Letters, 2021, 3, 9, 1266-1275.

99. Giant Spin Splitting in Chiral Perovskites Based on Local Electrical Field Engineering. Qi Wei, Qingyun Zhang, Longjun Xiang, Shihao Zhang, Jianpeng Liu, Xiaoyu Yang, Youqi Ke*, and Zhijun Ning*, The Journal of Physical Chemistry Letters, 2021, 12, 28, 6492-6498.

98. Band alignment towards high-efficiency NiOx-based Sn-Pb mixed perovskite solar cells. Hao Chen, Zijian Peng, Kaimin Xu, Danni Yu, Congcong Han, Hansheng Li & Zhijun Ning*, Science China Materials, 2021, 64(3), 537-546.

97. The Main Progress of Perovskite Solar Cells in 2020-2021. Tianhao Wu, Zhenzhen Qin, Yanbo Wang, Yongzhen Wu, Wei Chen, Shufang Zhang, Molang Cai, Songyuan Dai, Jing Zhang, Jian Liu, Zhongmin Zhou, Xiao Liu, Hiroshi Segawa, Hairen Tan, Qunwei Tang, Junfeng Fang, Yaowen Li, Liming Ding, Zhijun Ning, Yabing Qi, Yiqiang Zhang & Liyuan Han*, Nano-Micro Letters2021, 13: 152-152.

96. Passivation of the Buried Interface via Preferential Crystallization of 2D Perovskite on Metal Oxide Transport Layers. Bin Chen, Hao Chen, Yi Hou, Jian Xu, Sam Teale, Koen Bertens, Haijie Chen, Andrew Proppe, Qilin Zhou, Danni Yu, Kaimin Xu, Maral Vafaie, Yuan Liu, Yitong Dong, Eui Hyuk Jung, Chao Zheng, Tong Zhu, Zhijun Ning, Edward H. Sargent*, Advanced Materials, 2021, 33, 2103394.

95. Band Engineering via Gradient Molecular Dopants for CsFA Perovskite Solar Cells. Ziru Huang, Mingyang Wei, Andrew Harald Proppe, Hao Chen, Bin Chen, Yi Hou, Zhijun Ning, Edward H Sargent*, Advanced Functional Materials, 2021, 31(18), 2010572.

94. Molecularly manipulating orientation of hole transporting layers and mitigation of eletrical loss for dopant-free CsPbI2Br solar Cell (Highlight). Xianyuan Jiang, Zhijun Ning*, Science China Chemistry, 2021, 64, 1607-1608.


2020年

93. Solution-processed upconversion photodetectors based on quantum dots, Wenjia Zhou, Yuequn Shang, F. Pelayo Garcia de Arquer, Kaimin Xu, Ruili Wang, Shaobo Luo, Xiongbin Xiao, Xiaoyu Zhou, Ruimin Huang, Edward H. Sargent & Zhijun Ning*, Nature Electronics, 2020, 3, 251-258.

92. Ultra-high open-circuit voltage of tin perovskite solar cells via an eletron transporting layer design, Xianyuan Jiang, Fei Wang, Qi Wei, Hansheng Li, Yuequn Shang, Wenjia Zhou, Cheng Wang, Peihong Cheng, Qi Chen, Liwei Chen & Zhijun Ning*, Nat. Commun.,2020, 11, 1245.

91. Toward high efficiency tin perovskite solar cells: A perspective, Hansheng Li, Qi Wei, Zhijun Ning*, Appl. Phys. Lett., 2020, 117, 060502.

90. Cs0.15FA0.85PbI3/CsxFA1-xPbI3 Core/Shell Heterostructure for Highly Stable and Efficient Perovskite Solar Cells, Zijian Peng, Qi Wei, Hao Chen, Yawen Liu, Fei Wang, Xianyuan Jiang, Weiyan Liu, Wenjia Zhou, Shengjie Ling, Zhijun Ning*, Cell Reports Physical Science, 2020, 1, 1002234.

89. Integrated Structure and Device Engineering for High Performance and Scalable Quantum Dot Infrared Photodetectors, Kaimin Xu, Wenjia Zhou*, Zhijun Ning*, Small, 2020, 16, 2003397.

88. Band alignment towards high-efficiency NiOx-based Sn-Pb mixed perovskite solar cells, Hao Chen, Zijian Peng, Kaimin Xu, Qi Wei, Danni Yu, Congcong Han, Hansheng Li & Zhijun Ning*, SCIENCE CHINA Materials, 2020, 2095-8226.

87. High quality silicon: Colloidal quantum dot heterojunction based infrared photodetector, Xionbin Xiao, Kaimin Xu, Ming Yin, Yu Qiu, Wenjia Zhou, Li Zheng*, Xinhong Cheng, Yuehui Yu, and Zhijun Ning*, Appl. Phys. Lett., 2020, 116, 101102.

86. Inverted Si:PbS Colloidal Quantum Dot Heterojunction-based Infrared Photodetector, Kaimin Xu, Xiongbin Xiao, Wenjia Zhou, Xianyuan Jiang, Qi Wei, Hao Chen, Zhuo Deng, Jian Huang, Baile Chen, and Zhijun Ning*, ACS Appl. Mater. Interfaces, 2020, 12, 15414-15421.

85. Theoretical Study of Using Kinetics Strategy to Enhance the Stability of Tin Perovskite, Qi Wei, Youqi Ke*, Zhijun Ning*, Energy Environ. Mater., 2020, doi:10.1002/eem2.12075.

84. Two-dimensional tin perovskite nanoplate for pure red light-emitting diodes, Yuan Liao, Yuequn Shang, Qi Wei, Hao Wang, Zhijun Ning*, J. Phys. D: Appl. Phys., 2020, 53, 414005.

83. A Multi-functional Molecular Modifier Enabling Efficient Large-Area Perovskite Light-Emitting Diodes, Haoran Wang, Xiwen Gong, Dewei Zhao, Yong-Biao Zhao, Sheng Wang, Jianfeng Zhang, Lingmei Kong, Bin Wei, Rafael Quintero-Bermudez, Oleksandr Voznyy, Yuequn Shang, Zhijun Ning, Yanfa Yan, Edward H. Sargent, Xudong Yang, Joule, 2020, 4, 1977-1987.

82. Low-dimensionality perovskites yield high electroluminescence, Zhenyu Yang*, Chuanjiang Qin*, Zhijun Ning*, Mingjian Yuan*, Jiang Tang*, Liming Ding*, Science Bulletin, 2020, 65, 1057-1060.


2019

81. Highly stable hybrid perovskite light-emitting diodes based on Dion-Jacobson structure, Yuequn Shang, Yuan Liao, Qi Wei, Ziyu Wang, Bo Xiang, Youqi Ke, Weimin Liu*, Zhijun Ning*, Science advances, 2019, 5(8): eaaw8072.

80. Efficient and Stable Inverted Perovskite Solar Cells Incorporating Secondary Amines, Hao Chen, Qi Wei, Makhsud I. Saidaminov, Fei Wang, Andrew Johnston, Yi Hou, Zijian Peng, Kaimin Xu, Wenjia Zhou, Zhenghao Liu, Lu Qiao, Xiao Wang, Siwen Xu, Jiangyu Li, Run Long, Youqi Ke, Edward H. Sargent* and Zhijun Ning*, Adv. Mater., 2019, adma.201903559.

79. Stability improvement under high efficiency—next stage development of perovskite solar cells, Danni Yu, Yue Hu, Jiangjian Shi, Haoying Tang, Wenhao Zhang, Qingbo Meng*, Hongwei Han*, Zhijun Ning*, He Tian, Science China Chemistry, 2019, 62(6): 684-707.  

78. Trifluoroacetate induced small-grained CsPbBr3 perovskite films result in efficient and stable light-emitting devices, Haoran Wang, Xiaoyu Zhang, Qianqian Wu, Fan Cao, Dongwen Yang, Yuequn Shang, Zhijun Ning, Wei Zhang, Weitao Zheng, Yanfa Yan, Stephen V. Kershaw, Lijun Zhang, Andrey L. Rogach* & Xuyong Yang*, Nat. Commun., 2019, 10(1): 665.

77. Emerging highly emissive and stable white emitting “phosphors” based on lead-free inorganic halide perovskites (Highlight), Qi Wei, Zhijun Ning*, Science China Chemistry 2019, 62 (3), 287-288.

76. Bi-inorganic-ligand coordinated colloidal quantum dot ink, Xianyuan Jiang, Hansheng Li, Yuequn Shang, Fei Wang, Hao Chen, Kaimin Xu, Ming Yin, Hefei Liu, Wenjia Zhou, Zhijun Ning*, Chem. Commun., 2019, 55, 9483-9486.

74. Stabilizing the CsSnCl3 Perovskite Lattice by B-Site Substitution for Enhanced Light Emission, Ziyan Wu, Qiqi Zhang, Binghan Li, Zhifang Shi, Kaimin Xu, Yi Chen, Zhijun Ning, Qixi Mi*, Chem. Mater. 2019, 31, 14, 4999-5004.

73. Colloidal-quantum-dot-in-perovskite nanowires, Ruili Wang, Fei Wang, Wenjia Zhou, James Z. Fan, F. Pelayo Garcis de Arquer, Kaimun Xu, Edward H. Sargent, Zhijun Ning*, Infrared Physics & Technology, 2019, 98: 16-22.



2018

73. 2D-Quasi-2D-3D Hierarchy Structure for Tin Perovskite Solar Cells with Enhanced Efficiency and Stability, Fei Wang, Xianyuan Jiang, Hao Chen, Yuequn Shang, Hefei Liu, Jingle Wei, Wenjia Zhou, Hailong He, Weimin Liu, and Zhijun Ning*, Joule2018. 2, 2732-2743.

72. Highly Efficient Inverted Structural Quantum Dot Solar Cells, Ruili Wang, Xun Wu, Kaimin Xu, Wenjia Zhou, Yuequn Shang, Haoying Tang,  Hao Chen, and Zhijun Ning*, Adv. Mater., 2018, 30, 1704882.

71. Bidentate Ligand-Passivated CsPbI3 Perovskite Nanocrystals for Stable Near-Unity Photoluminescence Quantum Yield and Efficient Red Light-Emitting Diodes, Jun Pan , Yuequn Shang, Jun Yin, Michele De Bastiani, Wei Peng, Ibrahim Dursun, Lutfan Sinatra, Ahmed M. El-Zohry, Mohamed N. Hedhili, Abdul-Hamid Emwas, Omar F. Mohammed, Zhijun Ning*, and Osman M. Bakr*, J. Am. Chem. Soc., 2018, 140, 562–565.

70. Quasi-2D Inorganic CsPbBr3 Perovskite for Efficient and Stable Light-Emitting Diodes, Yuequn Shang, Gang Li, Weimin Liu, and Zhijun Ning*, Adv. Funct. Mater., 2018, 28, 1801193.

69. Energy Level Tuning of PEDOT:PSS for High Performance Tin-Lead Mixed Perovskite Solar Cells, Haoying Tang, Yuequn Shang,  Wenjia Zhou, Zijian Peng, Zhijun Ning*, Sol. RRL, 2018, 1800256.

68. Organic−Inorganic Layered and Hollow Tin Bromide Perovskite with Tunable Broadband Emission, Pengfei Fu , Menglin Huang, Yuequn Shang, Na Yu, Hao-Long Zhou , Yue-Biao Zhang , Shiyou Chen , Jinkang Gong, and Zhijun Ning*, ACS applied materials & interfaces, 2018, 10, 34363-34369.

67. Programming Cells for Dynamic Assembly of Inorganic Nano‐Objects with Spatiotemporal Control, Xinyu Wang, Jiahua Pu,  Bolin An, Yingfeng Li, Yuequn Shang, Zhijun Ning, Yi Liu,  Fang Ba, Jiaming Zhang,  Chao Zhong*, Advanced Materials, 2018, 30, 1705968.

66. Ambipolar Graphene–Quantum Dot Phototransistors with CMOS Compatibility, Li Zheng, Wenjia Zhou, Zhijun Ning*, Gang Wang, Xinhong Cheng*, Weida Hu, Wen Zhou, Zhiduo Liu, Siwei Yang, Kaimin Xu, Man Luo, Yuehui Yu,Advanced Optical Materials2018, 1800985.

65. Planar core based starburst triphenylamine molecules as hole transporting materials for high-performance perovskite solar cells (Highlight), Qi Wei, Zhijun Ning*, Science China Chemistry2018, 62, 5-6

64. Supersaturation controlled growth of MAFAPbI3 perovskite film for high efficiency solar cells, Dong Liu, Wenjia Zhou, Haoying Tang, Pengfei Fu, Zhijun Ning*, Science China Chemistry2018, 61, 1278-1284.

63. Quaternary Two Dimensional Zn-Ag-In-S Nanosheets for Highly Efficient Photocatalytic Hydrogen Generation, Hao Chen, Xiao-Yuan Liu, Shizhuo Wang, Xu Wang, Qi Wei, Xianyuan Jiang, Fei Wang, Kaimin Xu, Jianxi Ke, Qiong Zhang, Qian Gao, Youqi Ke*, Yi-Tao Long* and Zhijun Ning*, Journal of Materials Chemistry A, 2018, 6, 11670-11675 .

62. Improved Efficiency and Stability of Perovskite Solar Cells Induced by C=O Functionalized Hydrophobic Ammonium‐Based Additives, Zhifang Wu, Sonia R. Raga, Emilio J. Juarez-Perez, Xuyang Yao, Yan Jiang, Luis K. Ono, Zhijun Ning, He Tian, Yabing Qi*, Advanced Materials, 2018, 30, 1703670.

61. Peak Force Visible Microscopy for Determination of Exciton Diffusion Length in Organic Photovoltaic Blends, Haomin Wang, Le Wang, Yuequn Shang, Zhijun Ning, Xiaoji Xu*, ChemRxiv, 2018.

60. A Colloidal‐Quantum‐Dot Infrared Photodiode with High Photoconductive Gain, Yicheng Tang,  Feng Wu,  Fansheng Chen,  Yi Zhou,  Peng Wang,  Mingsheng Long, Wenjia Zhou,  Zhijun Ning,  Jiawei He,  Fan Gong,  Zhihong Zhu,  Shiqiao Qin,  Weida Hu*, Small2018, 1803158.

59. Significant Enhancement of Single-Walled Carbon Nanotube Based Infrared Photodetector Using PbS Quantum Dots, Yicheng Tang, Hehai Fang, Mingsheng Long, Gang Chen, Zhe Zheng, Jin Zhang, Wenjia Zhou, Zhijun Ning, Zhihong Zhu, Ying Feng, Shiqiao Qin, Xiaoshuang Chen, Wei Lu, and Weida Hu*, IEEE Journal of Selected Topics in Quantum Electronics2018, 24, 3801608.

58. Efficient defect-controlled photocatalytic hydrogen generation based on near-infrared Cu-In-Zn-S quantum dots, Xiao-Yuan Liu, Guozhen Zhang, Hao Chen, Haowen Li, Jun Jiang, Yi-Tao Long, and Zhijun Ning*. Nano Research, 2018, 11, 1379–1388.

57. Multi-functional organic molecules for surface passivation of perovskite, Tingting Zhang, Zhanqi Cao, Yuequn Shang, Chao Cui, Pengfei Fu, Xianyuan Jiang, Fei Wang, Kaimin Xu, Dongguang Yin*, Dahui Qu,*, Zhijun Ning*.J. Photochem. & Photobio, A: Chem., 2018, 355, 42-47.



2017

56. Highly Oriented Low-Dimensional Tin Halide Perovskites with Enhanced Stability and Photovoltaic Performance, Yuqin Liao, Hefei Liu, Wenjia Zhou, Dongwen Yang, Yuequn Shang, Zhifang Shi, Binghan Li, Xianyuan Jiang, Lijun Zhang*, Li Na Quan, Rafael Quintero-Bermudez, Brandon R. Sutherland, Qixi Mi, Edward H. Sargent, and Zhijun Ning*, J. Am. Chem. Soc., 2017, 139, 6693–6699.   

55. 0D–2D Quantum Dot: Metal Dichalcogenide Nanocomposite Photocatalyst Achieves Efficient Hydrogen Generation, Xiao-Yuan Liu, Hao Chen, Ruili Wang, Yuequn Shang, Qiong Zhang, Wei Li, Guozhen Zhang, Juan Su, Cao Thang Dinh, F. Pelayo García de Arquer, Jie Li, Jun Jiang, Qixi Mi, Rui Si, Xiaopeng Li, Yuhan Sun, Yi-Tao Long,* He Tian, Edward H. Sargent, and Zhijun Ning*. Adv. Mater., 2017, 29, 1605646.  

54. Symmetrization of the Crystal Lattice of MAPbI3 Boosts the Performance and Stability of Metal–Perovskite Photodiodes, Zhifang Shi, Yi Zhang, Chao Cui, Binghan Li, Wenjia Zhou, Zhijun Ning*, Qixi Mi*. Adv. Mater.2017, 29, 1701656.

53. Colloidal quantum-dots surface and device structure engineering for high-performance light-emitting diodes, Yuequn Shang, Zhijun Ning*.National Science Review2017, 4, 170-183.

52. Hole-transporting layer-free inverted planar mixed lead-tin perovskite-based solar cells, 'Yuqin Liao, Xianyuan Jiang, Wenjia Zhou, Zhifang Shi, Binghan Li, Qixi Mi, Zhijun Ning*,Front. Optoelectron., 2017, 10, 103–110.

51. Perovskite nanocrystals: synthesis, properties and applications, Pengfei Fu, Qingsong Shan, Yuequn Shang, Jizhong Song, Haibo Zeng*, Zhijun Ning*, Jinkang Gong*. Science Bulletin, 2017, 62, 369–380.

50. Optical study on intrinsic exciton states in high-qualityCH3NH3PbBr3single crystals, T. Thu Ha Do, A. Granados del Águila, Chao Cui, Jun Xing, Zhijun Ning*, and Qihua Xiong*, Phys. Rev. B, 2017, 96, 075308.

49. Colloidal metal oxide nanocrystals as charge transporting layers for solution-processed light-emitting diodes and solar cells, Xiaoyong Liang, Sai Bai, Xin Wang, Xingliang Dai, Feng Gao, Baoquan Sun, Zhijun Ning, Zhizhen Ye, and Yizheng Jin*. Chem. Soc. Rev., 2017, 46, 1730-1759.   

48. High-Efficiency and Stable Quantum Dot Light-Emitting Diodes Enabled by a Solution-Processed Metal-Doped Nickel Oxide Hole Injection Interfacial Layer, Fan Cao, Haoran Wang, Piaoyang Shen, Xiaomin Li, Yanqiong Zheng, Yuequn Shang, Jianhua Zhang, Zhijun Ning and Xuyong Yang, Adv. Funct. Mater., 2017, 27, 201704278.

47. A TiO2 embedded structure for perovskite solar cells with anomalous grain growth and effective electron extraction, Dong Wei, Jun Ji, Dandan Song, Meicheng Li, Peng Cui, Yaoyao Li, Joseph Michel Mbengue, Wenjia Zhou, Zhijun Ning and Nam-Gyu Park. J. Mater. Chem. A2017, 5, 1406-1414.



2016

46. Colloidal quantum dot ligand engineering for high performance solar cells. Ruili Wang, Yuequn Shang, Pongsakorn Kanjanaboos, Wenjia Zhou, Zhijun Ning*, and Edward H. Sargent*, Energy Environ. Sci., 2016, 9, 1130-1143.  

45. Highly efficient quantum dot near-infrared light-emitting diodes. Xiwen Gong, ZhenyuYang, Grant Walters, Riccardo Comin, Zhijun Ning, Eric Beauregard, Valerio Adinolfi, Oleksandr Voznyy, and Edward H. Sargent*, Nat. Photonics2016, 10, 253–257.

44. Plasmon resonance scattering at perovskite CH3NH3PbI3 coated single gold nanoparticles: evidence for electron transfer, Duo Xu , Dong Liu , Tao Xie , Yue Cao , Jun-Gang Wang , Zhijun Ning , Yi-Tao Long  and He Tian, Chem. Commun., 2016, 52, 9933-9936.



2015

43. Quantum-dot-in-perovskite solids. Zhijun Ning, Xiwen Gong, Riccardo Comin, Grant Walters, Fengjia Fan, Oleksandr Voznyy, Emre Yassitepe, Andrei Buin, Sjoerd Hoogland, Edward H. Sargent, Nature, 2015, 523, 324-328.

42. Colloidal Quantum Dot Solar Cells. Graham H. Carey, Ahmed L. Abdelhady, Zhijun Ning, Susanna M. Thon, Osman M. Bakr, and Edward H. Sargent, Chemical Reviews, 2015, 115, 12732–12763.

41. Colloidal Quantum Dot Photovoltaics Enhanced by Perovskite Shelling. Zhenyu Yang, Alyf Janmohamed, Xinzheng Lan, F. Pelayo García de Arquer, Oleksandr Voznyy, Emre Yassitepe, Gi-Hwan Kim, Zhijun Ning, Xiwen Gong, Riccardo Comin, and Edward H. Sargent*, Nano Lett., 2015, 15, 7539–7543.

40. Perovskite Thin Films via Atomic Layer Deposition. Brandon R. Sutherland, Sjoerd Hoogland, Michael M. Adachi, Pongsakorn Kanjanaboos, Chris T.O. Wong, Jeffrey J. McDowell, Jixian Xu, Oleksandr Voznyy, Zhijun Ning, Arjan J. Houtepen, and Edward H. Sargent*,Adv. Mater., 2015, 27, 53–58.

39. Hybrid Tandem Solar Cells With Depleted-Heterojunction Quantum Dot and Polymer Bulk Heterojunction Subcells. Taesoo Kim, Yangqin Gao, Hanlin Hu, Buyi Yan, Zhijun Ning, Lethy Krishnan Jagadamma, Kui Zhao, Ahmad R. Kirmani, Jessica Eid, Michael M. Adachi, Edward H. Sargent, Pierre M. Beaujuge, Aram Amassian, Nano Energy2015, 17, 196–205.



Before 2015

38. Air-stable n-type colloidal quantum dot solids. Zhijun Ning, Oleksandr Voznyy, Jun Pan, Sjoerd Hoogland, Valerio Adinolfi, Jixian Xu, Min Li, Ahmad R. Kirmani, Jon Paul Sun, James Minor, Kyle W. Kemp, Haopeng Dong, Lisa Rollny, André Labelle, Graham Carey, Brandon Sutherland, Ian Hill, Aram Amassian, Huan Liu, Jiang Tang, Osman M. Bakr & Edward H. Sargent*, Nat. Mater., 2014, 13, 822–828.

37. Solar cells based on inks of n-type colloidal quantum dots. Zhijun Ning, Haopeng Dong, Qiong Zhang, Oleksandr Voznyy, and Edward H. Sargent*, ACS Nano, 2014, 8, 10321–10327.

36. Simultaneous Multiple Wavelength Upconversion in a Core–Shell Nanoparticle for Enhanced Near Infrared Light Harvesting in a Dye-Sensitized Solar Cell. Chunze Yuan, Guanying Chen, Lin Li, Jossana A. Damasco, Zhijun Ning, Hui Xing , Tianmu Zhang, Licheng Sun, Hao Zeng , Alexander N. Cartwright, Paras N. Prasad, Hans Ågren, ACS Appl. Mater. Interfaces, 2014, 6, 18018-18025.

35. Doping Control Via Molecularly Engineered Surface Ligand Coordination. Mingjian Yuan, David Zhitomirsky, Valerio Adinolfi, Oleksandr Voznyy, Kyle W Kemp, Zhijun Ning, Xinzheng Lan, Jixian Xu, Jin Young Kim, Haopeng Dong, Edward H Sargent*, Adv. Mater., 2013, 25, 5586–5592.

34. Self-Assembled, Nanowire Network Electrodes for Depleted Bulk Heterojunction Solar Cells. Xinzheng Lan, Jing Bai, Silvia Masala, Susanna M Thon, Yuan Ren, Illan J Kramer, Sjoerd Hoogland, Arash Simchi, Ghada I Koleilat, Daniel Paz-Soldan, Zhijun Ning, André J Labelle, Jin Young Kim, Ghassan Jabbour, Edward H Sargent*, Adv. Mater., 2013, 25, 1769–1773.

33. Graded doping for enhanced colloidal quantum dot photovoltaics. Zhijun Ning, David Zhitomirsky, Valerio Adinolfi, Brandon Sutherland, Jixian Xu, Oleksandr Voznyy, Pouya Maraghechi, Xinzheng Lan, Sjoerd Hoogland, Yuan Ren and Edward H. Sargent*, Adv. Mater., 2013, 25, 1719–1723.  

32. The donor–supply electrode enhances performance in colloidal quantum dot solar cells. Pouya Maraghechi, André J Labelle, Ahmad R Kirmani, Xinzheng Lan, Michael M Adachi, Susanna M Thon, Sjoerd Hoogland, Anna Lee, Zhijun Ning, Armin Fischer, Aram Amassian, Edward H Sargent*, ACS nano, 2013, 7, 6111–6116.

31. Observation of Bunched Blinking from Individual CdSe/CdS and CdSe/ZnS Colloidal Quantum Dots. Haiyan Qin, Xiangjun Shang, Zhijun Ning, Tao Fu, Zhichuan. Niu, Hjalmar Brismar, Hans Ågren, and Ying Fu, J. Phys. Chem. C, 2012, 116, 12786-12790.

30. Systematic optimization of quantum junction colloidal quantum dot solar cells. Huan Liu, David Zhitomirsky, Sjoerd Hoogland, Jiang Tang, Illan J Kramer, Zhijun Ning, Edward H Sargent, App. Phys. Lett., 2012, 101, 151112.

29. Performance improvement of dye-sensitizing solar cell by semi-rigid triarylamine-based donors. Chengyou Wang, Jing Li, Shengyun Cai, Zhijun Ning, Dongmei Zhao, Qiong Zhang, Jian-Hua Su, Dyes and Pigments2012, 94, 40-48.

28. Photovoltaic performance of solid-state DSSCs sensitized with organic isophorone dyes: Effect of dye-loaded amount and dipole moment. Bo Liu, Xiaoyan Li, Miaoyin Liu, Zhijun Ning, Qiong Zhang, Chen Li, Klaus Müllen, Weihong Zhu,Dyes and Pigments, 2012, 94, 23-27.

27. Stable Dyes Containing Double Acceptors without COOH as Anchors for Highly Efficient Dye-Sensitized Solar Cells. Jiangyi Mao, Nannan He, Zhijun Ning, Qiong Zhang, Fuling Guo, Long Chen, Wenjun Wu, Jianli Hua, He Tian, Angew. Chem. Int. Ed.2012, 51, 9873.

26. All-Inorganic Colloidal Quantum Dot Photovoltaics Employing Solution-Phase Halide Passivation. Zhijun Ning, Yuan Ren, Sjoerd Hoogland, Oleksandr Voznyy, Larissa Levina, Philipp Stadler, Xinzheng Lan, David Zhitomirsky and Edward H. Sargent*, Adv. Mater.2012, 24, 6295–6299.  

25. Use of colloidal upconversion nanocrystals for energy relay solar cell light harvesting in the near-infrared region. Chunze Yuan, Guanying Chen*, Paras N Prasad, Tymish Y Ohulchanskyy, Zhijun Ning*, Haining Tian, Licheng Sun, Hans Ågren*, J. Mater. Chem.2012, 22, 16709–16713.

24. Type-II colloidal quantum dot sensitized solar cells with a thiourea based organic redox couple. Zhijun Ning, Chunze Yuan, Haining Tian, Ying Fu, Lin Li, Licheng Sun, Hans Ågren*, J. Mater. Chem.2012, 22, 6032–6037.

23. Hybrid passivated colloidal quantum dot solids. Alexander H. Ip, Susanna M. Thon, Sjoerd Hoogland, Oleksandr Voznyy, David Zhitomirsky, Ratan Debnath, Larissa Levina, Lisa R. Rollny, Graham H. Carey, Armin Fischer, Kyle W. Kemp, Illan J. Kramer, Zhijun Ning, Andre J. Labelle, Kang Wei Chou, Aram Amassian & Edward H. Sargent*, Nat. Nanotechnol.2012, 7, 577–582.

22. A charge-orbital balance picture of doping in colloidal quantum dot solids. Oleksandr Voznyy, David Zhitomirsky, Philipp Stadler, Zhijun Ning, Sjoerd Hoogland, Edward H Sargent*, ACS Nano, 2012, 6, 8448–8455.

21. Effects of K+ and Na+ ions on the fluorescence of colloidal CdSe/CdS and CdSe/ZnS quantum dots. Mátyás Molnár, Zhijun Ning*, Yun Chen, Peter Friberg, Lianming Gan, Ying Fu*, Sens. Actuators, B 2011, 155, 823–830.  

20. Exciton Polariton Contribution to the Stokes Shift in Colloidal Quantum Dots. Z.-H. Chen, S. Hellström, Zhijun Ning, et. al.J. Phys. Chem. C 2011, 115, 5286.

19. Solar cells sensitized with type-II ZnSe–CdS core/shell colloidal quantum dots. Zhijun Ning, Haining Tian, Chunze Yuan, Ying Fu, Haiyan Qin, Licheng Sun*, Hans Ågren*, Chem. Commun. 2011, 47, 1536–1538.

18. Pure Organic Redox Couple for QuantumDotSensitized Solar Cells. Zhijun Ning, Haining Tian, Chunze Yuan, Ying Fu, Licheng Sun*, Hans Ågren*, Chem. Eur. J. 2011, 17, 6330–6333.  

17. Role of surface ligands in optical properties of colloidal CdSe/CdS quantum dots. Zhijun Ning, Matyas Molnár, Yun Chen, Peter Friberg, Liming Gan, Hans Ågren, Ying Fu*, Phys. Chem. Chem. Phys. 2011, 13, 5848–5854.

16. Quantum RodSensitized Solar Cells. Zhijun Ning, Chunze Yuan, Haining Tian, Peter Hedström, Licheng Sun*, Hans Ågren*, ChemSusChem 2011, 4, 1741–1744.

15. Wave-function engineering of CdSe/CdS Core/Shell quantum dots for enhanced electron transfer to a TiO2 Substrate. Zhijun Ning, Haining Tian, Haiyan Qin, Qiong Zhang, Hans Ågren, Licheng Sun, Ying Fu*, J. Phys. Chem. C 2010, 114, 1518415189.

14. Improvement of dye-sensitized solar cells: what we know and what we need to know. Zhijun Ning, Ying Fu, He Tian, Energy Environ. Sci. 2010, 3, 11701181.

13. Photovoltage Improvement for Dye-Sensitized Solar Cells via Cone-Shaped Structural Design. Zhijun Ning, Qiong Zhang, Hongcui Pei, Jiangfeng Luan, Changgui Lu, Yiping Cui, He Tian,J. Phys. Chem. C 2009, 113, 10307-11313.

12. ‘Click’ Synthesis of Starburst Triphenylamine as Potential Emitting Material. Qiong Zhang, Zhijun Ning, He Tian, Dyes and Pigments 2009, 81, 80-84.  

11. Dye-sensitized solar cells based on donor-acceptor organic sensitizers with maleimide as electron acceptor. Qiong Zhang, Zhijun Ning, Hongcui Pei, Wenjun Wu, Frontiers of Chemistry in China 2009, 4, 269-277.

10. Conveniently synthesized isophorone dyes for high efficiency dye-sensitized solar cells: tuning photovoltaic performance by structural modification of donor group in Donor-Acceptor system. Bo Liu, Weihong Zhu, Qiong Zhang, Wenjun Wu, Min Xu, Zhijun Ning, Yongshu Xie, He Tian,Chem. Commun, 2009, 1766-1768.

9. Dye-sensitized solar cells based on donor-acceptor organic sensitizers with maleimide as electron acceptor. Qiong Zhang, Zhijun Ning, Hongcui Pei, Wenjun Wu,Frontiers of Chemistry in China, 2009, 4, 269-277.

8. Triarylamine: a promising core unit for efficient photovoltaic materials. Zhijun Ning, He Tian, Chem. Commun., 2009, 5483-5495.

7. Novel Iridium Complex with Carboxyl Pyridyl Ligand for Dye-Sensitized Solar Cells: High Fluorescence Intensity, High Electron InjectionEfficiency? Zhijun Ning, Qiong Zhang, Wenjun Wu, He Tian, J. Organomet. Chem., 2009, 694, 2705-2711.

6. Starburst triarylamine based dyes for efficient dye-sensitized solar cells. Zhijun Ning, Qiong Zhang, Wenjun Wu, Hongcui Pei, Bo Liu, He Tian, J. Org. Chem.2008. 73, 3791-3797.

5. Photochromic Spiropyran Dendrimers: “Click”Syntheses, Characterization, and Optical Properties. Qiong Zhang, Zhijun Ning, Yongli Yan, Shixiong Qian, He Tian, Macromol. Rapid Commun.2008, 29, 193-201.

4. Bisindolylmaleimide derivatives as non-doped red organic light-emitting materials. Zhijun Ning, Yechun Zhou, Qiong Zhang, Dongge Ma, Junji Zhang, He Tian,J. Photochem. Photobio. A: Chemistry, 2007, 192, 8-16.  

3. Soluble porphyrin–bisindolylmaleimides dyad and pentamer as saturated red luminescent materials. Yang Li, Lifeng Cao, Zhijun Ning, Zhe Huang, Yong Cao, He Tian. Tetrahedron Lett., 2007, 48, 975-978.

2. Aggregation-induced emission (AIE)-active starburst triarylamine fluorophores as potential non-doped red emitter for organic light-emitting diodes and Cl2 gas chemodosimeter. Zhijun Ning, Zhao Chen, Qiong Zhang, Yongli Yan, Shixiong Qian, Yong Cao, He Tian,Adv. Funct. Mater., 2007, 17, 3799-3807.

1. A soluble 5-carbazolium-8-hydroxyquinoline Al(III) complex as a dipolar luminescent material. Juntao Xie, Zhijun Ning, He Tian, Tetrahedron Lett., 2005, 46, 8559-8562.


团队成员 Group Members

周文佳 Wenjia Zhou

副研究员 Associate researcher
Optoelectronic devices

 中科院物理所凝聚态物理专业

邮箱:zhouwj@shanghaitech.edu.cn

王文静 Wenjing Wang

博士后 Post-doctoral Fellow
Optoelectronic materials and devices

 复旦大学光学专业

邮箱:wangwj@shanghaitech.edu.cn

臧子豪 Zihao Zang

博士研究生 Ph. D. Candidate
Optoelectronic materials and devices

 湖南大学化学专业

邮箱:zangzh@shanghaitech.edu.cn

马鸣宇 Mingyu Ma

博士研究生 Ph. D. Candidate
Optoelectronic materials and devices

 郑州大学化学专业

邮箱:mamy@shanghaitech.edu.cn

吴浩博 Haobo Wu

博士研究生 Ph. D. Candidate
Optoelectronic materials and devices

 bat365中文官方网站化学专业

邮箱:wuhb1@shanghaitech.edu.cn

周炜  Wei Zhou

博士研究生 Ph. D. Candidate
Optoelectronic materials and devices

  东华大学高分子材料专业

邮箱:zhouwei4@shanghaitech.edu.cn

梁昊 Hao Liang

博士研究生 Ph. D. Candidate
Optoelectronic materials and devices

 南京工业大学复合材料与工程专业

邮箱:lianghao@shanghaitech.edu.cn

李文焯 Wenzhuo Li

硕士研究生 Master candidate
Optoelectronic Functional materials

 郑州大学材料科学与工程专业

邮箱:liwzh2022@shanghaitech.edu.cn

刘高奇 Gaoqi Liu

硕士研究生 Master candidate
Optoelectronic materials and devices

  华东理工大学高分子材料与工程

邮箱:liugq2022@shanghaitech.edu.cn

刘炜煊 Weixuan Liu

硕士研究生 Master candidate
Optoelectronic Functional materials

  中南大学应用物理专业

邮箱:liuwx2022@shanghaitech.edu.cn

刘云龙 Yunlong Liu

硕士研究生 Master candidate
Optoelectronic materials and devices

  河南大学物理学专业

邮箱:liuyl2022@shanghaitech.edu.cn

郎海涛 Haitao Lang

硕士研究生 Master candidate
Optoelectronic devices

  宁波大学 化学专业

邮箱:langht2023@shanghaitech.edu.cn

姚志毅 Zhiyi Yao

硕士研究生 Master candidate
Optoelectronic devices

  郑州大学 高分子材料专业

邮箱:yaozhy2023@shanghaitech.edu.cn

许睿祺 Ruiqi Xu

硕士研究生 Master candidate
Optoelectronic materials and devices

 哈尔滨师范大学 新能源材料与器件

邮箱:xurq2023@shanghaitech.edu.cn


Alumni

廖宇勤 Yuqin Liao

研究生

邮箱:yuqin.liao@lcfcfuturecenter.com

崔超 Chao Cui

研究生

邮箱:Chloecui26@163.com

姜显园 Xianyuan Jiang

博士生

邮箱:jiangxy@shanghaitech.edu.cn

王浩 Hao Wang

博士生
现工作单位:上海光机所

邮箱:wanghao2@shanghaitech.edu.cn

虞丹妮 Danni Yu

博士生

邮箱:yudn@shanghaitech.edu.cn

潘梦玲 Mengling Pan

硕士生

邮箱:panml@shanghaitech.edu.cn

彭思 Si Peng

硕士生

邮箱:xiaoyuanliu.ecust@gmail.com

杨云清 Yunqing Yang

本科生

邮箱:yangyq3@shanghaitech.edu.cn

刘晓院 Xiao-Yuan Liu

联合培养学生
现工作单位:深圳职业技术学院

邮箱:xiaoyuanliu.ecust@gmail.com

曹占奇 Zhanqi Cao

联合培养学生
现工作单位:河南农业大学

邮箱:zhanqi001@126.com

吴志方 Zhifang Wu

联合培养学生
现工作单位:阿普杜拉国王科技大学

邮箱:wzf0601@hotmail.com

唐皓颖 Haoying Tang

科研助理
现工作单位:深兰科技公司

邮箱:haoyingtang@foxmail.com

刘董 Dong Liu

研究生

邮箱:shendongliu@126.com

张婷婷 Tingting Zhang

联合培养学生

邮箱:18855950210@163.com

王瑞丽 Ruili Wang

博士生
现工作单位:中芯国际集成电路制造(上海)有限公司

邮箱:wangrl1812@163.com

尚跃群 Yuequn Shang

博士生
现工作单位:瑞典林雪平大学Linköping University (IFM)

邮箱:yqshang1992@gmail.com

柯亮 Liang Ke

研究生

邮箱:keliang@shanghaitech.edu.cn

王飞 Fei Wang

博士生
现工作单位:上海华力微电子有限公司

邮箱:wangfei@shanghaitech.edu.cn                       

陈昊 Hao Chen

博士生
现工作单位:多伦多大学

邮箱:chenhao1@shanghaitech.edu.cn

徐凯敏 Kaimin Xu

博士生
现工作单位:海康威视

邮箱:xukm1@shanghaitech.edu.cn

廖园 Yuan Liao

研究生

邮箱:liaoyuan@shanghaitech.edu.cn

潘婷 Ting Pan

研究生


邮箱:panting@shanghaitech.edu.cn

彭子键 Zijian Peng

研究生

邮箱:pengzj@shanghaitech.edu.cn

韩聪聪 Congcong Han

研究生

邮箱:hancc@shanghaitech.edu.cn

周麒麟  Qilin Zhou

研究生

邮箱:zhouql@shanghaitech.edu.cn

姚兵 Bing Yao

研究生

邮箱:yaobing@shanghaitech.edu.cn

李晗升 Hansheng Li

博士生

邮箱:lihsh@shanghaitech.edu.cn

魏旗 Qi Wei

博士生

邮箱:weiqi@shanghaitech.edu.cn

王经天 Jingtian Wang

本科生


邮箱:wangjt2@shanghaitech.edu.cn

汪潇 Xiao Wang

本科生

邮箱:wangxiao2@shanghaitech.edu.cn

刘翮飞 Hefei Liu

联合培养学生

邮箱:hefeiliu01@gmail.com

印明 Ming Yin

本科生

邮箱:yinming@shanghaitech.edu.cn

向博 Bo Xiang

本科生

邮箱:xiangbo@shanghaitech.edu.cn

徐思雯 Siwen Xu

本科生

邮箱:xusiwen19@mails.ucas.ac.cn

邱俣 Yu Qiu

本科生

邮箱:qiuyu@shanghaitech.edu.cn

吴勋 Xun Wu

本科生

邮箱:xunw@iastate.edu

罗少伯 Shaobo Luo

本科生

邮箱:pm19sl@leeds.ac.uk

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