童国庆，教授，博士生导师。2017年毕业于南京大学电子科学与技术专业，获工学博士学位。2018-2021年，在日本冲绳科学技术大学院大学（OIST）从事博士后研究。主要从事半导体薄膜材料的表面/界面研究及其在光电子器件（太阳能电池、LED及光电探测器）和储能电池中的应用。探索了大面积钙钛矿太阳能电池模组的气相/液相制备工艺，开发出世界首个面积大于90       cm²工作寿命超1000 h的钙钛矿太阳能电池模组。近年来，在Science, Nat.       Energy, Joule, Nat. Commun., Adv. Mater., Adv. Energy. Mater., Adv.       Funct. Mater., Nano-Micro Lett., Energy Storage Mater., Interdiscip.       Mater., Nano Energy等期刊发表论文60+篇，6篇论文入选EIS高被引（Top 1%和0.1%），其中以第一/通讯作者发表论文30+篇，申请专利20多项，已授权专利11项。部分工作先后被Advanced Science News, Materials       Views China, OIST News, Solar daily, ChemistryViews，人民网，新华网，中国科技新闻网，安徽卫视《新闻联播》《第一时间》、合肥电视台科创频道、新闻频道…作为亮点新闻报道。研究成果应邀入选世界制造业大会政府馆。

担任Nature Review Chemistry, Advanced Materials, Advanced Energy Materials, Advanced Functional Materials, Angewandte Chemie International Edition, Interdisciplinary Materials, Advance Science, Energy & Environmental Science, Nano-Micro Letters, eScience, ACS Energy Letters, Science Bulletin等国内外30多个期刊审稿人。参与编著教育部规划教材《粉体工程》1部。担任《Nano-Micro Letters》《eScience》《Rare Metals》《EcoMat》期刊青年编委，安徽省电机工程学会太阳能发电专业委员会委员。

l  教育简历

2014/08 - 2017/09，南京大学，电子科学与技术，博士

2011/09 - 2014/04，合肥工业大学，材料物理与化学，硕士

2007/09 - 2011/07，合肥大学，粉体材料科学与工程，学士

l  工作简历

2022/01 - 至今    合肥工业大学，6686体育，教授

2018/11-2021/12   日本冲绳科学技术大学院大学（OIST），博士后研究员

2017/07-2018/10   合肥国轩高科动力能源有限公司，研发工程师

《半导体物理》《粉体工程》《粉末冶金磁性材料》

l  教学研究

l  科学研究

1）有机-无机杂化钙钛矿薄膜光电子器件（太阳能电池及模组/光电探测器/LED等）；
      2）柔性可穿戴半导体光电子器件；

3）半导体材料的表面界面研究及先进表征技术（XPS, UPS, STM, AFM 等）；

4）新一代锂离子/钠离子储能电池及电极材料；

l  学术论文

[1] J. Zhang, X. Liu, H. Wang, P. Ji, S. Yuan, H. Wang, T. Guo, S. Mariotti,  I. N. Rabehi, X. Huo, T. Wu, C. Zhang, C. Ding, L. Moshniaha, K. Mitrofanov, D. Madea, R. Kabe, D. Song, Z. Xu, Z. Wu, Y. Li, Y. Zhao, T.Bu, G. Tong*, L. K. Ono*, Y. B. Qi*. Synergistic Versatile Bistriflimide Salts in Light-Accelerated Spiro-OMeTAD Oxidation and Perovskite Module Photovoltaics Engineering. Nat. Commun. 2026, 17, 89.

[2] X. Liu, J.Zhang, B. Wang, G. Tong*, J. Yang, Y. Shi, Z. Chen, L. K.Ono*, Y. Jiang*, Y. B. Qi*. Perovskite Solar Modules with High Efficiency Exceeding 20%: From Laboratory to Industrial Community. Joule 2025, 9, 102056.

[3] Z. Tang, Z.Qin, C. Wang, T. Wang, J. Li, J. Yang, G. Tong*, Y. Jiang*.Constructing Heterojunction Interfaces of Bismuth-Antimony Alloys with Bimetallic Sulfide for Ultrafast Sodium-Ion Storage. Energy Storage Mater. 2025, 83, 104747.

[4] J. Li, H. Zhu, G. Tong*, B. Wang, L. Shi, Z. Chen, J. Yang, Y. Zhang, J. Xu*, Y. Jiang*. Structural Transformation-Engineered Yttrium-Based Lead-Free Metal Halides with Smart Tunable Luminescence via Self-Trapped Exciton and Lanthanide Ion Intrinsic Combined Emissions. Adv. Funct. Mater. 2025, 35, 2508778.

[5] J. Li, Z. Liu, G. Tong*, B. Wang, H. Zhu, L. Shi, Y. Gao, P. Chen, Y. Jiang*. Hydrolysis Reaction-Induced Phase Regulation of Sb-doped Zero-Dimensional Perovskite Cs-In-Cl Nanocrystals for Optoelectronic and Information Encryption Applications. Adv. Funct. Mater. 2025, 35, 2419509.

[6] H. Zhu, G. Tong*, J. Li, X. Tao, Y. Shen, Y. Sheng, L. Shi, F. Xie, J. Tang*, Y. Jiang*. Acid-Etching Induced Metal Cation Competitive Lattice Occupancy of Perovskite Quantum Dots for Efficient Pure-Blue QLEDs. Interdiscip. Mater. 2024, 3, 437.

[7] J. Zhou^†, Z. Liu^†,*, P. Yu^†, G. Tong^†, R. Chen, L. K. Ono, R. Chen, H. Wang, F. Ren, S. Liu, J. Wang, Z. Lan, Y. B. Qi*, W. Chen*. Modulation of Perovskite Degradation with Multiple-Barrier for Light-Heat Stable Perovskite Solar Cells. Nat. Commun. 2023, 14, 6120.

[8] G. Tong, J. Zhang, T. Bu, L. K. Ono, C. Zhang, Y. Liu, C. Ding, T. Wu, S. Mariotti, S. Kazaoui, Y. B. Qi*. Holistic Strategies Lead to Enhanced Efficiency and Stability of Hybrid Chemical Vapor Deposition       Based Perovskite Solar Cells and Modules. Adv. Energy. Mater.2023, 13, 2300153.

[9] H. Zhu, G. Tong*, J. Li, E. Xu, X. Tao, Y. Sheng, J. Tang*, Y. Jiang*.Enriched-Bromine Surface State for Stable Sky-Blue Spectrum Perovskite QLEDs with an EQE of 14.6%. Adv. Mater. 2022, 34, 202205092.

[10] G. Tong, D.-Y. Son, L. K. Ono, Y. Liu, Y. Hu, H. Zhang, A. Jamshaid, L. Qiu, Z. Liu, Y. B. Qi*. Scalable Fabrication of >90 cm² Perovskite Solar Modules with >1000 h Operational Stability Based on the       Intermediate Phase Strategy. Adv. Energy. Mater. 2021,11, 2003712.

[11] G. Tong, L. K. Ono, Y. Liu, H. Zhang, T. Bu, Y. B. Qi*. Up-Scalable Fabrication of SnO₂ with Multifunctional Interface for High Performance Perovskite Solar Module. Nano-Micro Lett. 2021, 13, 155.

[12] G. Tong, D.-Y. Son, L. K. Ono, H.-B. Kang, S. He, L. Qiu, H. Zhang, Y. Liu, J. Hieulle, Y. B. Qi*. Removal of Residual Compositions by Powder Engineering for High Efficiency Formamidinium-Based Perovskite Solar Cells with Operation Lifetime Over 2000 Hours. Nano Energy 2021, 87, 106152.

[13] G. Tong, M. Jiang, D.-Y. Son, L. K. Ono, Y. B. Qi*. 2D Derivative Phase Induced Growth of 3D All Inorganic Perovskite Micronanowire Array Based Photodetectors. Adv. Funct. Mater. 2020, 30, 2002526.

[14] G. Tong, T. Chen, H. Li, L. Qiu, Z. Liu, Y. Dang, W. Song, L. K. Ono, Y. Jiang*, Y. B. Qi*. Phase       Transition Induced Recrystallization and Low Surface Potential Barrier Leading to 10.91%-Efficient CsPbBr₃ Perovskite Solar Cells. Nano Energy 2019, 65, 104015.

[15] G. Tong, H. Li, G. Li, T. Zhang, C. Li, L. Yu*, J. Xu, Y. Jiang*, Y.Shi, K. Chen. Mixed Cation-Perovskite Solar Cells by Stack-Sequence Chemical Vapor Deposition with Self-Passivation and Gradient Absorption Layer. Nano Energy. 2018, 48, 536.

[16] T. Bu, J. Li, H. Li, C. Tian, J. Su, G. Tong, L. K. Ono, C. Wang, Z. Lin, N. Chai, X. L. Zhang, J. Chang, J. Lu, J. Zhong, W. Huang, Y. B. Qi, Y, B. Cheng, F. Huang*. Lead-Halide Templated Crystallization of Methylamine-Free Perovskite for Efficient Photovolatic Modules. Science 2021, 372, 1327-1332.

[17]       T. Bu , L. K. Ono, J. Li, J. Su, G. Tong, W. Zhang, Y. Liu, J. Zhang, J. Chang , S. Kazaoui , F. Huang, Y.-B. Cheng, Y. B. Qi* . Modulating Crystal Growth of Formamidinium-Caesium Perovskites for Over 200 cm² Photovoltaic Sub-Modules. Nat. Energy 2022, 7, 528-536.

[18] Z. Liu , L. Qiu, L. K. Ono , S. He , Z. Hu, M. Jiang, G. Tong, Z. Wu, Y. Jiang , D.-Y. Son, Y. Dang, S. Kazaoui , Y. B. Qi *. A Holistic Approach to Interface Stabilization for Efficient Perovskite Solar Modules with Over 2000-Hour Operational Stability. Nat. Energy 2020, 5, 596-604.

[19] H.Zhang, L. K. Ono, G. Tong, Y. Liu, Y. B. Qi*. Long-Life Lithium-Sulfur Batteries with High Areal       Capacity Based on Coaxial CNTs@ TiN-TiO₂ Sponge. Nat. Commun., 2021, 12, 4738.

[20] Y. Liu, L. K. Ono, G. Tong, T. Bu, H. Zhang, C. Ding, W. Zhang, Y. B. Qi*. Spectral Stable Blue-Light-Emitting Diodes via Asymmetric Organic Diamine Based Dion–Jacobson Perovskites. J. Am. Chem. Soc. 2021, 143, 19711-19718.

●  授权专利

[1] 一种三维构架硅/钙钛矿叠层太阳能电池及其制备方法，童国庆，陶智豪，解自文，宋宇轩，张少鹏，蒋阳；ZL2024 1 0184547.5.

[2] 一种Sb/Mn共掺杂Cs₃InCl₆钙钛矿纳米晶的制备方法，蒋阳，盛媛媛，石霖，李俊春，何勇，高延鹏，莫寒清，童国庆，陈萍；ZL2023 1 0694301.8.

[3] 一种通过室温反溶剂沉淀法制备锑掺杂铯钇氯无铅钙钛矿发光材料的方法，蒋阳，李俊春，童国庆，朱汉文，陶徐勇，盛媛媛；ZL202310247677.4.

[4] 一种背接触钙钛矿太阳电池，余林蔚，李成栋，童国庆，王军转，徐骏，徐岭；ZL201510382778.8.

[5] 一种室温溶解碘化铅制备掺杂钙钛矿薄膜电池的方法，蒋阳，童国庆，蓝新正，宋自航，李国鹏，仲洪海；ZL 201611006468.7.

[6] 一种锂电池用二维无机钙钛矿负极材料的制备方法，童国庆，王双双，欧阳浩淼，姜雨恒，周皖岳，李新峰；ZL       201810764082.5.

[7] 一种气相法制备层状结构无机钙钛矿负极材料的方法, 周皖岳，童国庆，王双双，ZL201810246688.X.

[8] 一种高体积分数金刚石金属基复合材料的制备方法，蒋阳，杨伟锋，余亚岚，童国庆，仲洪海；ZL201410231884.1.

[9] 一种钙钛矿电池氧化硅防水层制备装置，童国庆，蒋阳，ZL2023 2 1704732.X.

[10] 一种钙钛矿量子点合成及包覆的装置，童国庆，蒋阳，ZL2023 2 1784507.1.

●        荣誉

合肥工业大学五四青年标兵，2025年

安徽省自然科学三等奖，2025年

第一届安徽省高校“百场千项”科技活动优秀成果奖，2024年