教育背景:
2013.09 – 2018.07,清华大学深圳国际研究生院,材料科学与工程,工学博士
2015.09 – 2018.02,香港科技大学,机械航天航空系,联合培养博士
2010.09 – 2013.07,北京化工大学,材料科学与工程,工学硕士
2006.09 – 2010.07,北京化工大学,材料科学与工程,工学学士
工作经历:
2023.04 – 至今,深圳大学,高等研究院,研究员
2018.11 – 2022.10,美国俄亥俄州立大学,化学与生物化工系,博士后
研究兴趣:
近年来主要围绕高能量密度电化学储能、以及高安全低成本长时电化学储能等前沿科技问题开展研究工作,特别关注锂/钠/钾离子电池、碱金属空气电池等新型储能器件构建及变革性储能新机理的研究,专注于通过储能机制的完善和高相容性电解液的开发来实现上述二次电池的高效能量存储和长程稳定循环,并深入探究电解液与电极材料的界面反应。
所获奖项与兼职:
2024 深圳大学优秀班主任
2024 Battery Energy期刊青年编委
2024 Energy Lab期刊青年编委
2024 Carbon Neutralization期刊青年编委
2024 Energy Materials and Devices期刊青年编委
2023 Green Carbon期刊青年编委
2022 Micromachines和Sustainability特刊客座编辑
2021 VEBLEO学术编委会成员
2017 清华大学光华奖学金
2015–2018 香港科技大学博士生奖学金
2013北京化工大学优秀硕士毕业生
2007国家奖学金
科研项目:
(1) 广东省自然科学基金面上项目(2025A1515010810),2025/01-2027/12,10万,主持,在研。
(2) 深圳市自然科学基金面上项目(JCYJ20240813142526034),2024/11-2027/11,30万,主持,在研。
(3) 国家自然科学基金青年项目(52301280),2024/01-2026/12,30万,主持,在研。
(4) 博士后HWYC计划项目,2024/01-2026/12,90万,主持,在研。
(5) 深圳市孔雀计划科研经费,2025/01-2027/12,300万,主持,在研。
(6) 中国航发航材院研发检测项目(横KJ20240143),2024/01-2024/12,25万,主持,结题。
(7) 深圳大学研究生高水平学科竞赛资助项目,2024/01~2024/12,0.6万,主持,结题。
(8) 深圳大学青年教师-科研启动项目,2023/04-2026/03,20万,主持,在研。
(9) 国家自然科学基金面上项目(51772167),2018/01-2021/12,60万,参与,结题。
发表论文:
加入深圳大学后
(4)M. Dilshad, T. Li, S.-L. Lee, L. Qin* (co-corresponding author). Next-Generation Aluminum-Air Batteries: Integrating New Materials and Technologies for Superior Performance. ACS Applied Energy Materials, 2025, DOI: 10.1021/acsaem.4c02926.
(3)X. Chen, Y. Meng, D. Xiao, L. Qin* (co-corresponding author). Empowering the Potassium-Sulfur Battery with Commendable Reaction Kinetics and Capacity Output by Localized High-Concentration Electrolytes. ACS Applied Materials & Interfaces, 2024, DOI: 10.1021/acsami.3c19583.
(2)X. Chen, Y. Meng, D. Xiao, Y. Wu, L. Qin* (co-corresponding author). Tuning Solvation Structure in Non-flammable, Localized High-Concentration Electrolytes with Enhanced Stability towards All Aluminum Substrate-Based K Batteries.Energy Storage Materials, 2023, 61, 102923.
(1)L. Qin,H. Ao, Y. Wu.Feasibility of Achieving Two-Electron K-O2Batteries.Faraday Discussions, 2024, 248: 60-74.
加入深圳大学前
(17)L. Qin,L. Schkeryantz, Y. Wu. Designing High-Donicity Anions for Rechargeable Potassium Superoxide/Peroxide Batteries.Angewandte Chemie International Edition,2023, 62, e202213996.
(16)L. Qin,S. Zhang, J. Zheng, Y. Lei, D. Zhai, Y. Wu.Pursuing Graphite-Based K-Ion O2Batteries: A Lesson from Li-Ion Batteries.Energy & Environmental Science, 2020,13, 3656-3662.
(15)L. Qin,L. Schkeryantz, J. Zheng, N. Xiao, Y. Wu. Superoxide-Based K−O2Batteries: Highly Reversible Oxygen Redox Solves Challenges in Air Electrodes.Journal of theAmerican Chemical Society, 2020, 142, 11629-11640.
(14)L. Qin,N. Xiao, S. Zhang, X. Chen, Y. Wu.From K−O2to K−Air Batteries: Realizing Superoxide Batteries on the Basis of Dry Ambient Air.Angewandte Chemie International Edition,2020, 59, 10498-10501.
(13)L. Qin,N. Xiao, J. Zheng, Y. Lei, D. Zhai, Y. Wu.Localized High-Concentration Electrolytes Boost Potassium Storage in High-Loading Graphite.Advanced Energy Materials, 2019, 9, 1902618.
(12)L. Qin,Y. Lei, H. Wang, J. Dong, Y. Wu, D. Zhai, F. Kang, Y. Tao, Q.-H. Yang.Capillary Encapsulation of Metallic Potassium in Aligned Carbon Nanotubes for Use as Stable Potassium Metal Anodes.Advanced Energy Materials, 2019, 9, 1901427.
(11)L. Qin,W. Lv, W. Wei, F. Kang, D. Zhai, Q.-H. Yang.Oxygen-Enriched Carbon Nanotubes as a Bifunctional Catalyst Promote the Oxygen Reduction/Evolution Reactions in Li−O2Batteries.Carbon, 2019, 141, 561-567.
(10)L. Qin,W. Yang, W. Lv, L. Liu, Y. Lei, W. Yu, F. Kang, J.-K. Kim, D. Zhai, Q.-H. Yang. Room-Temperature Liquid Metal-Based Anodes for High-Energy Potassium-Based Electrochemical Devices.Chemical Communications,2018, 54, 8032-8035.
(9)L. Qin,Y. Yuan, W. Wei, W. Lv, S. Niu, Y.-B. He, D. Zhai, F. Kang, J.-K. Kim, Q.-H. Yang, J. Lu.Graphene-Directed Formation of a Nitrogen-Doped Porous Carbon Sheet with High Catalytic Performance for the Oxygen Reduction Reaction.The Journal of Physical Chemistry C, 2018, 122, 13508-13514.
(8)L. Qin,D. Zhai, W. Lv, W. Yang, J. Huang, S. Yao, J. Cui, W.-G. Chong, J.-Q. Huang, F. Kang, J.-K. Kim, Q.-H. Yang.A High-Performance Lithium Ion Oxygen Battery Consisting of Li2O2Cathode and Lithiated Aluminum Anode with Nafion Membrane for Reduced O2Crossover.Nano Energy, 2017, 40, 258-263.
(7)L. Qin,D. Zhai, W. Lv, W. Wei, W. Yu, Y. Lei, W. Yang, J. Huang, S. Yao, J. Cui, F. Kang, J.-K. Kim, Q.-H. Yang.Dense Graphene Monolith Oxygen Cathodes for Ultrahigh Volumetric Energy Densities.Energy Storage Materials,2017, 9, 134-139.
(6)Y. Lei, S. Zhang, J. Dong, Y. Gao, C. Gao, Y. Wei,L. Qin*(co-corresponding author), D. Han,D. Huang, G. Wei, D. Zhai, F. Kang. Potassium-Enriched Graphite for Use as Stable Hybrid Anodes in High-Efficiency Potassium Batteries.Carbon, 2023, 201, 1030-1037.
(5)X.Chen†,L. Qin†(co-first author),J. Sun,S. Zhang,D.Xiao,Y. Wu. Phase Transfer-Mediated Degradation of Ether-Based Localized High-Concentration Electrolytes in Alkali Metal Batteries.Angewandte Chemie International Edition,2022,61, e202207018.
(4)K. Hu†,L. Qin†(co-first author), S. Zhang, J. Zheng, J. Sun, Y. Ito, Y. Wu.Building a Reactive Armor Using S-Doped Graphene for Protecting Potassium Metal Anodes from Oxygen Crossover in K−O2Batteries.ACS Energy Letters, 2020, 5, 1788-1793.
(3)Y. Chen,L. Qin*(co-corresponding author), Y. Lei, X. Li, J. Dong, D. Zhai*, B. Li, F. Kang.Correlation between Microstructure and Potassium Storage Behavior in Reduced Graphene Oxide Materials.ACS Applied Materials & Interfaces, 2019, 11, 45578-45585.
(2)Y.Lei†,L. Qin†(co-first author), R. Liu†, K. C. Lau, Y. Wu, D. Zhai, B. Li, F. Kang.Exploring Stability of Nonaqueous Electrolytes for Potassium-Ion Batteries.ACS Applied Energy Materials, 2018, 1, 1828-1833.
(1)S. Zhang†,L. Qin†(co-first author), H. Song, X. Chen, J. Zhou, Z. Ma. FromSolid Carbon Sources to Carbon Nanotubes: A General Water-Assisted Approach.RSC Advance, 2014, 4, 54244-54248.
