李博权
近期热点
资料介绍
个人简历
2012.07–2016.06 清华大学 化学系 化学生物学 学士\r2016.07–2020.06 清华大学 化学工程系 化学工程与技术 博士\r2020.07–至今 北京理工大学 前沿交叉科学研究院 预聘助理教授/特别副研究员研究领域
"""""结合国家在储能领域的重大需求,主要针对高比能二次电池体系,开展反应机制与调控策略探索,关键材料开发,实用化器件研制等研究工作,\r具体包括\r1)锂硫电池正极构筑与多硫化物反应动力学调控\r2)锂硫电池电解液开发与金属锂保护\r3)高能量密度锂硫软包电池器件开发\r4)氧析出/氧还原双功能催化剂设计与锌空气电池应用"近期论文
Z.-X. Chen, M. Zhao, L.-P. Hou, X.-Q. Zhang, B.-Q. Li*, J.-Q. Huang*, Towards practical high-energy-density lithium–sulfur pouch cells: A review, Advanced Materials, 2022, 34, 2201555.\r\rC.-X. Zhao, J.-N. Liu, J. Wang, C. Wang, X. Guo, X.-Y. Li, X. Chen, L. Song, B.-Q. Li*, Q. Zhang*, A clicking confinement strategy to fabricate transition metal single-atom sites for bifunctional oxygen electrocatalysis, Science Advances, 2022, 8, abn5091.\r\rJ.-N. Liu, C.-X. Zhao, D. Ren, J. Wang, R. Zhang, S.-H. Wang, C. Zhao, B.-Q. Li*, Q. Zhang, Preconstructing asymmetric interface in air cathodes for high‐performance rechargeable Zn–air batteries, Advanced Materials, 2022, 34, 2109407.\r\rX.‐Y. Li, S. Feng, M. Zhao, C.‐X. Zhao, X. Chen, B.‐Q. Li*, J.‐Q. Huang, Q. Zhang*, Surface gelation on disulfide electrocatalysts in lithium–sulfur batteries, Angewandte Chemie International Edition, 2022, 61, e202114671.\r\rG. Ye, M. Zhao, L.-P. Hou, W.-J. Chen, X.-Q. Zhang, B.-Q. Li*, J.-Q. Huang, Evaluation on a 400 Wh kg−1 lithium–sulfur pouch cell, Journal of Energy Chemistry, 2022, 66, 24–29.\r\rY.-W. Song, J.-L. Qin, C.-X. Zhao, M. Zhao, L.-P. Hou, Y.-Q. Peng, H.-J. Peng, B.-Q. Li*, The formation of crystalline lithium sulfide on electrocatalytic surfaces in lithium–sulfur batteries, Journal of Energy Chemistry, 2022, 64, 568–573.\r\rC.-X. Zhao#, X.-Y. Li#, M. Zhao, Z.-X. Chen, Y.-W. Song, W.-J. Chen, J.-N. Liu, B. Wang, X.-Q. Zhang, C.-M. Chen, B.-Q. Li*, J.-Q. Huang, Q. Zhang*, Semi-immobilized molecular electrocatalysts for high-performance lithium–sulfur batteries, Journal of the American Chemical Society, 2021, 143, 19865–19872.\r\rC.-X. Zhao#, J.-N. Liu#, J. Wang, D. Ren, B.-Q. Li*, Q. Zhang*, Recent advances of noble-metal-free bifunctional oxygen reduction and evolution electrocatalysts, Chemical Society Review, 2021, 50, 7745–7778.\r\rC.-X. Zhao, J.-N. Liu, N. Yao, J. Wang, D. Ren, X. Chen, B.-Q. Li*, Q. Zhang*, Can aqueous zinc–air batteries work at sub‐zero temperatures? Angewandte Chemie International Edition, 2021, 60, 15281–15285.\r\rC.-X. Zhao#, J.-N. Liu#, J. Wang, D. Ren, J. Yu, X. Chen, B.-Q. Li*, Q. Zhang, A ΔE = 0.63 V bifunctional oxygen electrocatalyst enables high‐rate and long‐cycling zinc–air batteries, Advanced Materials, 2021, 33, 2008606.\r\rM. Zhao#, Y.-Q. Peng#, B.-Q. Li*, X.-Q. Zhang, J.-Q. Huang*, Regulation of carbon distribution to construct high-sulfur-content cathode in lithium–sulfur batteries, Journal of Energy Chemistry, 2021, 56, 203–208.\r\rJ. Xie, Y.‐W. Song, B.‐Q. Li*, H.‐J. Peng*, J.‐Q. Huang, Q. Zhang*, Direct intermediate regulation enabled by sulfur containers in working lithium–sulfur batteries, Angewandte Chemie International Edition, 2020, 59, 22150–22155. 相关热点