孙 洁 现任职称/职务:教授,博士生导师(化学工艺),硕士导师(化学工艺)
通讯地址:天津大学化工学院,天津大学北洋园校区52楼F座523,天津海河教育园区
电子邮箱:sunjie_0023@163.com
办公电话: 研究方向: 锂离子电池, 钠离子电池, 锂硫电池, 镁离子电池, 电催化 工作经历: 2017年7月至今,天津大学 化工学院 教授
2013年-2017年,在美国斯坦福大学博士后。主要研究方向包括锂离子电池、钠离子电池、锂硫电池、二维材料的研究。 学术成就: 2016年入选天津市##计划青年项目 2017年入选第十三批国家##计划青年项目 论著专利: 1. J.Sun, H. Lee, M. Pasta, H. Yuan, G. Zheng, Y. Sun, Y. Li, Y. Cui, Aphosphorene/graphene hybrid material as a high-capacity anode for sodium ionbatteries, Nature Nanotechnology, 10, 980–985(2015). IF=35.267. 2. J.Sun, Y. Sun, M. Pasta, G. Zhou, Y. Li, W. Liu, F. Xiong, and Y. Cui,"Entrapment of Polysulfides by a Black-Phosphorus-Modified Separator forLithium-Sulfur Batteries", Advanced Materials, 28, 9797–9803 (2016). IF=18.960 3. J.Sun, H. Liu, X. Chen, D. G. Evans, W. Yang, X. Duan, Carbon nanoringsand their enhanced lithium storage properties. Adv. Mater. 2013,25, 1125–1130. (Frontispiece, Top 10 of Advanced Materials-Most Accessedin 11/2012) IF=18.960 4. G. Zhou, J.Sun (共同一作), Y. Jin, W. Chen, C. Zu, R. Zhang, Y.Qiu, J. Zhao, D. Zhuo, Y. Liu, X. Tao, W. Liu, K. Yan, H. R. Lee, and Y. Cui,"Sulfiphilic Nickel Phosphosulfide Enabled Li2S Impregnation in 3DGraphene Cages for Li-S Batteries", Advanced Materials,29, 1603366 (2017) IF=18.960 5. J.Sun, G. Zheng, H.-W. Lee, N. Liu, H. Wang, H. Yao, W. Yang and Y. Cui,Formation of Stable Phosphorus-Carbon Bond for Enhanced Performance in BlackPhosphorus Nanoparticle-Graphite Composite Battery Anodes, NanoLetters, 2014, 14 (8), 4573–4580. IF=13.779 6. J. Zhang, J.Sun (共同一作), Y. Li, F. Shi, and Y. Cui,"Electrochemical Control of Copper Intercalation into NanoscaleBi2Se3", Nano Letters 17, 1741-1747 (2017) IF=13.779 7. J.Sun, H. Liu, X. Chen, D. G. Evans, W. Yang, X. Duan, Synthesis ofgraphene nanosheets with good control over the number of layers within thetwo-dimensional galleries of layered double hydroxides. Chem.Commun., 2012, 48, 8126–8128. IF= 6.567 8. J.Sun, H.-W. Lee, M. Pastac, Y. M. Sun, W. Liu, Y. B. Li, H. R. Lee, N.Liu, Y. Cui. Carbothermic reduction synthesis of red phosphorus-filled 3Dcarbon material as a high-capacity anode for sodium ion batteries. EnergyStorage Materials 4, 130–136 (2016).
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