李崇文 - 东南大学 - 电子科学与工程学院

个人简介

李崇文，东南大学电子科学与工程学院，东南大学青年首席教授、博导，获国家级青年人才计划支持。于美国托莱多大学获得物理学博士学位，师从鄢炎发讲席教授。博士毕业后，在加拿大多伦多大学/美国西北大学从事博士后研究，师从加拿大两院院士Edward Sargent教授。他的研究兴趣聚焦于新型薄膜半导体（光伏、探测、显示）与人工智能的交叉领域，涵盖半导体界面物理、新材料开发、多结器件在光伏及光电催化中的应用，以及人工智能驱动的光电子器件研发。以第一作者或通讯作者身份在Science、Nature、Nature Energy（2篇）和Nature Communications等顶尖期刊上发表论文逾20篇。曾获2020年度国家优秀自费留学生奖学金和2024年度福布斯中国青年海归菁英100人奖项。教育经历美国托莱多大学，物理学，博士导师：鄢炎发教授中国海洋大学，材料工程，硕士南京工业大学，材料科学与工程，学士工作经历 2024-至今东南大学，教授，博士生导师 2022-2024 加拿大多伦多大学/美国西北大学，博士后研究员/化学材料科学家，合作导师：Prof.Edward H.Sargent 2021-2022 美国托莱多大学，博士后研究员，合作导师：鄢炎发教授

研究领域

1. 先进光伏器件：钙钛矿，碲化镉， OPV，CIGS；钙钛矿叠层电池：全钙钛矿，钙钛矿/硅，钙钛矿/OPV，钙钛矿/CIGS叠层电池 2. 人工智能辅助高通量光电子器件制备和表征 3. 多功能光伏集成系统4. 光电化学催化：光解水产氢，光催化二氧化碳还原

近期论文

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1. C. Li, Y. Yan*, et al., Rational design of Lewis base molecules for highly stable and efficient inverted perovskite solar cells, Science, 379, 690-694 (2023). IF: 56.9. Highly Cited Paper & Hot Paper. 2. H. Chen#, A. Maxwell#, C. Li#, et al., Regulating surface potential maximizes voltage in all-perovskite tandems, Nature, 613, 676-681 (2023). A Record 26.3% Efficiency Certified by NREL. IF: 64.8. Highly Cited Paper & Hot Paper. 3. C. Li, T. Yan*, et al., Low-bandgap mixed tin-lead iodide perovskites with reduced methylammonium for simultaneous enhancement of solar cell efficiency and stability, Nat. Energy, 5, 768-776 (2020). IF: 56.7. Highly Cited Paper. 4. C. Li#, L. Chen#, F. Jiang#, et al., Diamine chelates for increased stability in mixed Sn-Pb and all-perovskite tandem solar cells, Nat. Energy, 9, 1388-1396 (2024). IF: 56.7. 5. Y. Cai#, A. Maxwell#, C. Li#, et al., Multi-Functional Silole Hole Transport Layer for Efficient and Stable Lead-Tin Perocskite and Tandem Solar Cells, Adv. Mater, 36, 46, 2411968 (2024). IF: 29.4. 6. W. Yan, C. Li*, C. Peng, et al., Hot-Carrier Cooling Regulation for Mixed Sn-Pb Perovskie Solar Cells, Adv. Mater, 36, 18 (2024). IF: 29.4. Highly Cited Paper. 7. H. Liu, C. Li*, J. Dong, et al., Indium Iodide Additive Realizing Efficient Mixed Sn-Pb Perovskite Solar Cells, Adv. Energy Mater, 14,17, 2304234 (2024). IF: 27.8. 8. Y. Shen#, C. Li#, C.Liu, et al., The impact of interface and heterostructure on the stability of perovskite-based solar cells, Appl. Phys. Rev, 11, 4, 041306 (2024). IF: 14.13. 9. C. Li#, Z. Song#, Y. Yan*, et al., Reducing Saturation-current density to realize high-efficiency low-bandgap mixed thin lead halide perovskite solar cell, Adv. Energy Mater, 9, 1803135 (2019). IF: 27.8. Highly Cited Paper. 10. C. Li#, Y. Zhou#, S. Pang* et al., Mediated Evolution of Mixed-Organic-Cation Perovskite Thin Films: A Dynamic Composition-Tuning Process, Angew. Chem., 129, 1-6 (2017). IF: 16.6. 11. S. Tan#, C. Li#,*, Z. Zhou*, et al., Sustainable Thermal Regulation Improves Stability and Efficiency in All-Perovskite Tandem Solar Cells, Nat. Commun., 15, 4136 (2024). IF: 16.6. 12. Z. Song*, C. Li#, L. Chen#, et al., All-Perovskite Tandem Photoelectrodes for Unassisted Solar Hydrogen Production, ACS Energy Lett., 8, 2611-2619 (2023). IF: 22. 13. L. Chen#, C. Li#, Z. Song*, et al., Incorpoating Potassium Citrate to Improve the Performance of Tin-Lead Perovskite Solar Cells, Adv. Energy Mater, 13, 22, 2301218 (2023). IF: 27.8. 14. X. Jiang, C. Li*, X. Wang, et al., Multifunctional Regulation of Highly Orienated Tin-Lead Alloyed Perovskite Solar Cells, ACS Energy Lett., 8, 1068-1075 (2023). IF: 22. 15. C. Peng, C. Li*, Z. Zhou*, et al., Reducing Energy Disorder for Eifficient and Stable Sn-Pb Alloyed Perovskite Solar Cells, Angew. Chem., 134, e202201209 (2022). IF: 16.6. 16. Z. Wu#, E. Bi#, C. Li#, Y. Yan*, et al., Scalable Two-Step Production of High-Efficiency Perovskite Solar Cells and Modules, Solar RRL, 7, 2200571 (2023). IF: 9.2. 17. R. Li#, C. Li#, Z. Zhou*, et al., Hydrogen-bonded dopant-free hole transport material enables and stable inverted perovskite solar cells, CCS Chemistry, 0, 3309-3319 (2021). IF: 11.2. 18. D. Liu, C. Li*, S. Pang*, et al., Structural properties and stability of inorganic halide perovskites, Small Structures, 2, 2000089 (2021). IF: 15.9. 19. M. Zhou, C. Li*, Z. Zhou*, et al., Interaction engineering in organic-inorganic hybrid perovskites solar cells, Materials Horizons, 7, 2208-2236 (2020). IF: 14.4. 20. C. Li, S. Pang*, G. Cui*, et al.,Methylamine gas based synthesis and healing process toward upscaling of perovskite solar cells: progress and perspective, Solar RRL, 1, 1700076 (2017). IF: 9.2. 21. D. Liu#, C. Li#, J. Tian*, et al., Blended additive manipulated morphology and crystalling transformation toward high performance perovskite solar cells, RSC Adv., 7, 51944-9 (2017). IF: 3.9. 22. C. Li#, Z. Wang#, S. Pang*, et al., Insight into the effect of ion source for the solution processing of perovskite films, RSC Adv., 6, 85026-9 (2016). IF: 3.9.

学术兼职

Journal of Energy Chemistry （IF：13.6）和 Green Carbon 的青年编辑