2009-2013 青岛大学 物理学院，工学学士

2013-2018 中国科学院半导体研究所，理学博士（硕博连读）

2018-2020 深圳大学 物理与光电工程学院，博士后

2020-2025 南京大学 现代工程与应用科学学院，特任副研究员

2025-至今 南京大学 现代工程与应用科学学院，助理教授（特聘研究员）

长期致力于新型无机半导体光电器件、钙钛矿光电器件及其柔性器件的研究，在钙钛矿材料合成、光电器件制备和光电性能调控等方面都积累了较为丰富的研究经验。近年来，聚焦于高效全钙钛矿叠层太阳能电池及其柔性器件的开发，带领团队实现了柔性全钙钛矿叠层太阳能电池和组件的效率世界纪录。目前主要研究方向如下：

（1）钙钛矿太阳能电池及其柔性器件开发

（2）钙钛矿基叠层太阳能电池及其柔性器件开发

欢迎热爱该研究领域的研究生、博士生加入我们研究团队。

1.主持的项目：

1）博士后基金项目：基于α-CsPbI₃/量子点的宽光谱自驱动柔性光电探测器，2019M653040，2019年5月7日-2020年8月31日

2）国家自然科学基金青年基金项目：基于α-CsPbI₃薄膜/量子点构建高性能宽光谱自驱动柔性图像传感器，61904109，2020年1月1日-2022年12月31日

3）江苏省碳达峰碳中和科技创新专项资金项目（课题）：高效双面钙钛矿太阳电池的关键材料与结构设计，BE2022026-3，2022年7月1日-2026年6月30日

4）关键地球物质循环前沿科学中心“GeoX”交叉项目：高效率柔性全钙钛矿叠层太阳能电池关键技术研究，2024ZD06，2024年1月1日-2024年12月31日

5）国家自然科学基金面上项目：低成本高效柔性全钙钛矿叠层太阳能电池研究，62474086，2025年1月1日-2028年12月31日

2.参与的项目：

1）国家自然科学基金联合基金项目：高效稳定双绒面钙钛矿/TOPCon叠层太阳能电池研究（2022-2025）

2）国家重点研发计划（课题）：大面积叠层电池组件制备技术及关键装备研制（2022-2026）

3）国家重点研发计划（课题）：大面积钙钛矿组件退化机制与稳定化技术（2023-2027）

2021年入选江苏省“双创博士”

2023年获2022光伏领域重大科技进展

2024年获2023年度江苏省高等学校科学技术研究成果奖一等奖

2025年获江苏省高校（“十四五”期间）新能源及新能源汽车科技成果十大进展

在Nature、Science、Nature Energy、Nature Materials、Nature Communications、Advanced Materials、Advanced Functional Materials、ACS Nano、Nano Energy、Small等国际重要学术期刊上已发表光电器件相关论文20余篇。

1.Ludong Li^#; Yurui Wang^#; Xiaoyu Wang^#; Renxing Lin; Xin Luo; Zhou Liu; Kun Zhou; Shaobing Xiong; Qinye Bao; Gang Chen; Yuxi Tian; Yu Deng; Ke Xiao; Jinlong Wu; Makhsud I. Saidaminov; Hongzhen Lin; Chang-Qi Ma; Zhisheng Zhao; Yingju Wu; Lijun Zhang^*; Hairen Tan^*; Flexible all-perovskite tandem solar cells approaching 25% efficiency with molecule-bridged hole-selective contact, Nature Energy, 2022, 7: 708-717. (IF=56.7)

2.Ludong Li; Fan Zhang; Shuai Ye; Xiao Peng; Zhenhua Sun; Jiarong Lian; Liwei Liu; Junle Qu; Jun Song^*; Self-powered photodetectors based on Cs_xDMA_1-xPbI₃ perovskite films with high detectivity and stability, Nano Energy, 2020, 71: 104611.(IF=17.6)

3.Ludong Li^#; Zheng Lou^#; Guozhen Shen^*; Flexible Broadband Image Sensors with SnS Quantum Dots/Zn₂SnO₄ Nanowires Hybrid Nanostructures, Advanced Functional Materials, 2018, 28: 1705389. (IF=19)

4.Ludong Li^#; Leilei Gu^#; Zheng Lou; Zhiyong Fan^*; Guozhen Shen^*; ZnO Quantum Dot Decorated Zn₂SnO₄ Nanowire Heterojunction Photodetectors with Drastic Performance Enhancement and Flexible Ultraviolet Image Sensors, ACS Nano, 2017, 11: 4067-4076. (IF=17.1)

5.Ludong Li; Shuai Ye; Junle Qu; Feifan Zhou; Jun Song^*; Guozhen Shen^*; Recent advances in perovskite photodetectors for image sensing, Small, 2021, 17: 2005606.(IF=13.3)

6.Ludong Li^#; Zheng Lou^#; Haoran Chen; Ruilong Shi; Guozhen Shen^*; Stretchable SnO₂-CdS interlaced-nanowire film ultraviolet photodetectors, Science China Materials, 2019, 62: 1139-1150. (IF=8.1)

7.Ludong Li^#; Zheng Lou^#; Guozhen Shen^*; Hierarchical CdS nanowires based rigid and flexible photodetectors with ultrahigh sensitivity, ACS Applied Materials & Interfaces, 2015, 7: 23507-23514. (IF=9.5)

8.Zheng Lou^#; Ludong Li^#(共同一作); Guozhen Shen^*; High performance rigid and flexible ultraviolet photodetectors with single-crystalline ZnGa₂O₄ nanowires, Nano Research, 2015, 8: 2162-2169. (IF=9.9)

9.Zheng Lou^#; Ludong Li^#(共同一作); Guozhen Shen^*; InGaO₃(ZnO) superlattice nanowires for high performance ultraviolet photodetectors, Advanced Electronic Materials, 2015, 1: 1500054. (IF=6.2, 封面文章)

10.Yurui Wangǂ; Renxing Linǂ; Chenshuaiyu Liuǂ; Xiaoyu Wangǂ; Cullen Chosyǂ; Yuki Haruta; Anh Dinh Bui; Minghui Li; Hongfei Sun; Xuntian Zheng; Haowen Luo; Pu Wu; Han Gao; Wenjie Sun; Yuefeng Nie; Hesheng Zhu; Kun Zhou; Hieu T. Nguyen; Xin Luo; Ludong Li; Chuanxiao Xiao; Makhsud I. Saidaminov; Samuel D. Stranks*; Lijun Zhang*; Hairen Tan*; Homogenized contact in all-perovskite tandems using tailored 2D perovskite. Nature, 2024, 635: 867-873.(IF=64.8)

11.Renxing Lin^#; Yurui Wang^#; Qianwen Lu^#; Beibei Tang; Jiayi Li; Han Gao; Yuan Gao; Hongjiang Li; Changzeng Ding; Jin Wen; Pu Wu; Chenshuaiyu Liu; Siyang Zhao; Ke Xiao; Zhou Liu; Changqi Ma; Yu Deng; Ludong Li; Fengjia Fan; Hairen Tan^*; All-perovskite tandem solar cells with 3D/3D bilayer perovskite heterojunction, Nature, 2023, 620: 994-1000.(IF=64.8)

12.Renxing Lin^#; Jian Xu^#; Mingyang Wei^#; Yurui Wang^#; Zhengyuan Qin^#; Zhou Liu; Jinlong Wu; Ke Xiao; Bin Chen; So Min Park; Gang Chen; Harindi R. Atapattu; Kenneth R. Graham; Jun Xu; Jia Zhu; Ludong Li; Chunfeng Zhang; Edward H. Sargent^*; Hairen Tan^*; All-perovskite tandem solar cells with improved grain surface passivation, Nature, 2022, 603: 73-78.(IF=64.8)

13.Han Gao^#; Ke Xiao^#; Renxing Lin^#; Siyang Zhao; Wenliang Wang; Sergey Dayneko; Chenyang Duan; Chenglong Ji; Hongfei Sun; Anh Dinh Bui; Chenshuaiyu Liu; Jin Wen; Wenchi Kong; Haowen Luo; Xuntian Zheng; Zhou Liu; Hieu Nguyen; Jin Xie;Ludong Li; Makhsud I. Saidaminov; Hairen Tan^*; Homogeneous crystallization and buried interface passivation for perovskite tandem solar modules, Science, 2024, 383: 855-859.(IF=56.9)

14.Chenyang Duanǂ; Han Gaoǂ; Ke Xiaoǂ*; Vishal Yedduǂ; Bo Wang; Renxing Lin; Hongfei Sun; Pu Wu; Yameen Ahmed; Anh Dinh Bui; Xuntian Zheng; Yurui Wang; Jin Wen; Yinke Wang; Wennan Ou; Chenshuaiyu Liu; Yuhong Zhang; Hieu Nguyen; Haowen Luo; Ludong Li; Ye Liu; Xin Luo; Makhsud I. Saidaminov*; Hairen Tan*; Scalable fabrication of wide-bandgap perovskites using green solvents for tandem solar cells. Nature Energy, 2024, https://doi.org/10.1038/s41560-024-01672-x. (IF=56.7)

15.Tiantian Li^#; Jian Xu^#; Renxing Lin; Sam Teale; Hongjiang Li; Zhou Liu; Chenyang Duan; Qian Zhao; Ke Xiao; Pu Wu; Bin Chen; Sheng Jiang; Shaobing Xiong; Haowen Luo; Sushu Wan; Ludong Li; Qinye Bao; Yuxi Tian; Xueping Gao; Jin Xie; Edward H. Sargent^*; Hairen Tan^*; Inorganic wide-bandgap perovskite subcells with dipole bridge for all-perovskite tandems, Nature Energy, 2023, 8: 610-620.(IF=56.7)

16.Zhou Liuǂ; Renxing Linǂ*; Mingyang Weiǂ; Mengran Yinǂ; Pu Wu; Manya Li; Ludong Li; Yurui Wang; Gang Chen; Virginia Carnevali; Lorenzo Agosta; Vladislav Slama; Nikolaos Lempesis; Zhichao Wang; Meiyu Wang; Yu Deng; Haowen Luo; Han Gao; Ursula Rothlisberger; Shaik M. Zakeeruddin; Xin Luo; Ye Liu; Michael Grätzel*; Hairen Tan*; All-perovskite tandem solar cells achieving >29% efficiency with improved (100) orientation in wide-bandgap perovskites, Nature Materials, 2025, 24: 252-259.(IF=37.2)

17.Xuntian Zhengǂ; Wenchi Kongǂ; Jin Wenǂ; Jiajia Hong; Haowen Luo; Rui Xia; Zilong Huang; Xin Luo; Zhou Liu; Hongjiang Li; Hongfei Sun; Yurui Wang; Chenshuaiyu Liu; Pu Wu; Han Gao; Manya Li; Anh Dinh Bui; Yi Mo; Xueling Zhang; Guangtao Yang; Yifeng Chen; Zhiqiang Feng; Hieu T. Nguyen; Renxing Lin; Ludong Li; Jifan Gao*; Hairen Tan*; Solvent engineering for scalable fabrication of perovskite/silicon tandem solar cells in air. Nature Communications, 2024, 15: 4907. (IF=16.6)

18.Yurui Wang^#; Renxing Lin^#; Xiaoyu Wang^#; Chenshuaiyu Liu; Yameen Ahmed; Zilong Huang; Zhibin Zhang; Hongjiang Li; Mei Zhang; Yuan Gao; Haowen Luo; Pu Wu; Han Gao; Xuntian Zheng; Manya Li; Zhou Liu; Wenchi Kong; Ludong Li; Kaihui Liu; Makhsud I. Saidaminov; Lijun Zhang; Hairen Tan^*; Oxidation-resistant all-perovskite tandem solar cells in substrate configuration, Nature Communications, 2023, 14: 1819.(IF=16.6)

19.Jin Wen; Yicheng Zhao; Pu Wu; Yuxuan Liu; Xuntian Zheng; Renxing Lin; Sushu Wan; Ke Li; Haowen Luo; Yuxi Tian; Ludong Li; Hairen Tan^*; Heterojunction formed via 3D-to-2D perovskite conversion for photostable wide-bandgap perovskite solar cells, Nature Communications, 2023, 14: 7118.(IF=16.6)