個人簡歷
2014.09- 至今 北京大學化學與分子工程學院,副教授
2011.08-2014.09北京大學化學與分子工程學院,講師
2009.07-2011.08 北京大學化學與分子工程學院,研究助理
2007.10-2009.07 荷蘭埃因霍溫理工大學套用物理系,博士
2004.09-2009.07 北京大學化學與分子工程學院,理學博士
2000.09-2004.06 北京大學化學與分子工程學院,理學學士
研究興趣
電漿化學及套用,新能源材料
代表論文
1.Junwen Zhou, Rui Li, Xinxin Fan, Yifa Chen, Ruodan Han, Wei Li, Jie Zheng, Bo Wang and Xingguo Li, Rational Design of a Metal-Organic Framework Host for Sulfur Storage in Fast, Long-Cycle Li-S Batteries, Energy & Environ. Sci., 2014, 8, 2715-2724.
2.Jun Chen, He Fu, Yifu Xiong, Jinrong Xu, Jie Zhengi* and Xingguo Lii*, MgCl2 promoted hydrolysis of MgH2 nanoparticles for highly efficient H2 generation, Nano Energy, 2014, in press
3.Xiaojuan Wang, Junwen Zhou, He Fu, Wei Li, Xinxin Fan, Gongbiao Xin, Jie Zhengi* and Xingguo Lii*, MOF derived catalysts for electrochemical oxygen reduction, J. Mater. Chem. A, 2014, 2, 14064.
4.He Fu, Junzhi Yang, Xiaojuan Wang, Gongbiao Xin, Jie Zhengi* and Xingguo Lii*, Preparation and dehydrogenation properties of
lithium hydrazidobis-borane (LiNH(BH3)NH2BH3),Inorg. Chem., 2014, 53, 7334.
5.Wei Li; Rong Yang; Jie Zhengi*; Xingguo Li.i*, Tandem plasma reactions for Sn/C composites with tunable structure and high reversible lithium storage capacity. Nano Energy, 2013, 2, 1314-1321.
6.Wei Li, Rong Yang, Xiaojuan Wang, Teng Wang, Jie Zhengi*, and Xingguo Lii*, 'Intercalated Si/C Films as the Anode for Li-Ion Batteries with near Theoretical Stable Capacity Prepared by Dual Plasma Deposition', Journal of Power Sources ,221 (2013), 242-46.
7.Rong Yang, Yingan Gu, Yaoqi Li, Jie Zhengi*, Xingguo Li*, Self-assembled 3D Flower Shaped SnO2 Nanostructures with Improved Electrochemical Performance for Lithium Storage, Acta Materialia,58 (2010) 866–874.
8.J. Zheng, R. Yang, L. Xie, J. L. Qu, Y. Liu, and X. G. Lii*, Plasma-Assisted Approaches in Inorganic Nanostructure Fabrication Advanced Materials22 ,1451 (2010).
9.J. Zheng, R. Yang, W. M. Chen, L. Xie, X. G. Lii*, and C. P. Chen, Iron nitride thin films deposited by chloride assisted plasma enhanced chemical vapour deposition: facile stoichiometry control and mechanism study Journal of Physics D-Applied Physics42 ,185209 (2009).
10.J. Zheng, Y. Yang, B. Yu, X. B. Song, and X. G. Lii*, [0001] oriented aluminum nitride one-dimensional nanostructures: Synthesis, structure evolution, and electrical properties ACS Nano2 ,134 (2008).
11.J. Zheng, B. Sun, R. Yang, X. B. Song, X. G. Lii*, and Y. K. Pui*, Metal Al produced by Hplasma reduction of AlCl: A thermodynamic and kinetic study on the plasma chemistry Journal of Physical Chemistry B112 ,12748 (2008).
12.J. Zheng, X. B. Song, X. G. Lii*, and Y. K. Pui*, Large-scale production of amorphous silicon oxynitride nanowires by nickel-catalyzed transformation of silicon wafers in NHplasma Journal of Physical Chemistry C112 ,27 (2008).
13.J. Zheng, X. B. Song, N. Chen, and X. G. Lii*, Highly symmetrical CdS tetrahedral nanocrystals prepared by low-temperature chemical vapor deposition using polysulfide as the sulfur source Crystal Growth & Design8 ,1760 (2008).
7.J. Zheng, X. B. Song, Y. H. Zhang, Y. Li, X. G. Lii*, and Y. K. Pui*, Nanosized aluminum nitride hollow spheres formed through a self-templating solid-gas interface reaction Journal of Solid State Chemistry180 ,276 (2007).
14.J. Zheng, X. B. Song, B. Yu, and X. G. Lii*, Asymmetrical AlN nanopyramids induced by polar surfaces Applied Physics Letters90 ,193121 (2007).