一、基本信息

姓 名：耿聪

学 位：博士

政治面貌：群众

现工作单位：湖北文理学院功能材料研究院

专业方向：钙钛矿基叠层太阳能电池

联系方式：Email: gengcong@hbuas.edu.cn

个人概述：耿聪，工学博士，2025年毕业于武汉理工大学（材料复合新技术全国重点实验室）。现任湖北文理学院功能材料研究院讲师、低维光电材料与器件湖北省重点实验室专职研究员。主要研究方向为：①高效稳定型宽带隙钙钛矿太阳能电池制备技术；②钙钛矿/铜铟镓硒叠层太阳能电池的构筑与性能调控。近五年作为主要骨干人员分别参与国家重点研发计划项目2项（U20A20245，U21A20171），先后在Energy & Environmental Science、Nano-Micro Letters、Nano Energy、Chemical Engineering Journal、Electrochimica Acta等国际著名期刊发表SCI论文十余篇。

二、教育背景和工作经历

2025.12-至今 湖北文理学院，功能材料研究院，讲师

2021.9-2025.12 武汉理工大学，材料科学与工程, 博士

2018.09-2021.6 新疆大学，应用化学, 硕士

2013.09-2017.06 新疆大学，化学工程与工艺, 学士

三、近五年主持参与项目

1. 国家重点研发计划：适用于钙钛矿@CIGS叠层太阳电池的全印刷高效稳定钙钛矿电池，U20A20245，2021.1-2024.12，260万元，结题，主要参与人。

2. 国家重点研发计划：>35%效率3结CIGS/钙钛矿叠层太阳电池的力、物、电、光协同管理机制研究，U21A20171，2022.1-2025.12，260万元，结题，主要参与人。

四、代表性论文

[1] Geng, C.; Zhang, K.; Jiang, J.; Wang, C.; Wu, C.; Wang, J.; Long, F.; Han, L; Cheng, Y.; Peng, Y.*, Two-terminal perovskite/Cu(In,Ga)Se₂ tandems with conformal coatings based on commercial bottom cells with >26% efficiency. Energy & Environmental Science 2025, 18, 8907-8917.

[2] Geng, C.; Zhang, K.; Wang, C.; Wu, C.; Jiang, J.; Long, F.; Han, L.*; Han, Q.; Cheng, Y.; Peng, Y.*, Crystallization modulation and holistic passivation enables efficient two-terminal perovskite/CuIn(Ga)Se₂ tandem solar cells. Nano-Micro Letters 2025, 17(1), 8.

[3] Dou, Y.^#; Geng, C.^#; Duan, C.; Hu, S.; Deng, X.; Chen, Y.; Kong, A.; Peng, Y.; Qiang, Z.*; Ku, Z.*, A vapor-assisted annealing strategy towards high-quality perovskite absorbers enabling efficient wide bandgap perovskite solar cells. Nano Energy 2025, 139, 110914.

[4] Geng, C.; Wei, P.; Chen, H.; Liu, H.; Zheng, S.; Wang, H.; Xie, Y.*, Promoting the hole extraction and interfacial performance with MOFs derived Co₃O₄@NC for efficient carbon-based perovskite solar cells. Chemical Engineering Journal 2021, 414: 128878.

[5] Geng, C.; Xie, Y.*; Wei, P.; Liu, H.; Qiang, Y.; Zhang, Y.; An efficient Co-NC composite additive for enhancing interface performance of carbonbased perovskite solar cells. Electrochimica Acta 2020, 358: 136883.

[6] Wang, J.; Yu, X.; Geng, C.; Li, W.; Liang, Y.; Li, B.; Peng, Y.*; Cheng, Y., Ionic liquids-assisted in-situ targeted defect-healing strategy for high-performance sprayed perovskite modules. Journal of Energy Chemistry 2025, 104, 756-764.

[7] Zhang, Y.; Geng, C.; Zheng, C.; Zheng, H.; Zhao, X.; Zhu, M.; Peng, Y.*; Cheng, Y., Additive passivation strategies to improve properties of evaporation-spray coating perovskite solar cells. Sustainable Energy & Fuels 2025, 9(10), 2670-2677.

[8] Jiang, X.; Geng, C.; Yu, X.; Pan, J.; Zheng, H.; Liang, C.; Li, B.; Long, F.; Han, L.; Cheng, Y.; Peng, Y.*, Doping with KBr to achieve high-performance CsPbBr3 semitransparent perovskite solar cells. ACS Applied Materials & Interfaces 2024, 16(15), 19039-19047.

[9] Chen, X.; Geng, C.; Yu, X.; Feng, Y.; Liang, C.; Peng, Y.*; Cheng, Y., Additive engineering in spray enables efficient methylammonium-free wide-bandgap perovskite solar cells. Materials Today Energy 2023, 34, 101316.

[10] Feng, Y.; Geng, C.; Xiao, Y.; Chen, X.; Jiang, X.; Ku, Z.; Cheng, Y.; Peng, Y.*, Chemical bath deposited SnO₂ for high-efficiency perovskite solar cells on Ti substrates. Materials Science in Semiconductor Processing 2023, 164, 107604.

[11] Liang, C.; Du, H.; Geng, C.; Yu, X.; Jiang, X.; Huang, S.; Long, F.; Han, L.; Li, W.; Liang, G.; Li, B.; Cheng, Y.; Peng, Y.*, Low temperature method-based evaporation/spray-coating technology for wide bandgap perovskite solar cells. Materials Today Energy 2023, 34, 101316.

[12] Wang, L.; Wang, C.; Li, J.; Geng, C.; Mo, Y.; Li, H.; Bu, T.; Tong, J.*; Cheng, Y.; Huang, F.*, Buried interface engineering enables efficient, scalable, and stable inverted perovskite solar cells. Solar RRL 2023, 7(12), 2300144.