冯军教授现为南方科技大学材料科学与工程系和深圳量子研究院长聘教授,2020年加入南科大前,是美国加州大学伯克利分校劳伦斯伯克利国家实验室长聘科学家。主要从事先进电子材料、能源环境材料制备和表征、超快测量和动力学、量子显微镜、深圳同步辐射光源、自由电子激光等交叉学科领域的研究,具有丰富的科研和大科学工程经验。他参与建造了伯克利先进光源椭圆极化谱学光束线和超高重复频率电子枪APEX,负责设计建造了劳伦斯伯克利国家实验室误差修正电子显微镜和中能X-射线共振散射光束线站,测量了磁性材料和warm dense matter 的超快动力学过程,发明了三元蒸镀高量子效率光阴极材料制备和测量新方法,研发了时间分辨230飞秒超快时间探测器及飞秒激光放大器阵列等。冯军教授已在Nature, Physical Review letters, Applied Physical Letters, Review of scientific instruments等杂志发表150余篇科研论文。
冯军
教授
国家杰出青年基金获得者、深圳市国家级领军人才
0755-88015983
fengj@sustech.edu.cn
研究领域
先进电子材料
能源环境材料制备和表征
液晶材料
超快测量和动力学
量子显微镜
同步辐射
自由电子激光
生物交叉学科
学术成果
1:A disordered rock salt anode for fast-charging lithium-ion batteries Nature, 585, 63(2020)
2:Gregory M. Su, Isvar A. Cordova, Michael A. Yandrasits, Matthew Lindell, Jun Feng, Cheng Wang, and Ahmet Kusoglu, Chemical and Morphological Origins of Improved Ion Conductivity in Perfluoro Ionene Chain Extended Ionomers, Journal of the American Chemical society, 141, 13547(2019)
3: Yan Xu, Yifan Ye,Shuyang Zhao, Jun Feng, Jia Li, Hao Chen, Ankun Yang, Feifei Shi,Lujie Jia, Yang Wu, Xiaoyun Yu, Per-Anders Glans-Suzuki, Yi Cui, Jinghua Guo, and Yuegang Zhang, In Situ X‑ray Absorption Spectroscopic Investigation of the Capacity Degradation Mechanism in Mg/S Batteries, Nano Lett, 19, 2928(2019)
4: A. Scholl , M.A. Marcus , A. Doran , J.R.Nasiatka , A.T. Young , A .A . MacDowell , R. Streubel , N. Kent , Jun Feng , W.Wan , H.A. Padmore, Hartmann characterization of the PEEM-3 aberration-corrected X-ray photoemission electron microscope, Ultramicroscpy, 188, 77(2018)
5: L Zhang, M Ling, Jun Feng, L Mai, G Liu, J Guo, The synergetic interaction between LiNO3 and lithium polysulfides for suppressing shuttle effect of lithium-sulfur batteries, Energy Storage Materials 11, (2018)24-29
6: Rita Wang, Deep B.Shah, J Maslyn, W Loo, K Wujcik, E. Nelson, M. Latimer, Jun Feng, DPrendergast, T. Pascal and Nitash Balsara, Rate Constants of Electrochemical Reactions in a Lithium-Sulfur Cell determined by Operando X-ray Absorption Spectroscopy, Journal of The Electrochemical Society ,165 , A3487(2018)
7: S.Karkare, J.Feng, X.Chen, W.Wan, J.Palomares, T.C.Chiag, H.PAdmore, Reduction of intrinsic photocathodes using ordered crystalline surfaces, Phys.Rev.Lett., 118,164802(2017)
8: Jun Feng, S.Karkare, J.Nasiatka, S.Schubert, J.Smedley, H.PAdmore Near Atomically smooth alkali antimonide photocathode thin films, J.of App.Phys. 121,044904(2017)
9: Y Opachich, J Koch, P Bell, D Bradley, N Chen, Jun Feng, A Gopal, A Semiconductor-Based High-Yield X-Ray Photocathode, LO-007-17, Nevada National Security Site/Mission Support and Test Services LLC, 2016, DOE/NV/03624-0261
10: S.Gupta, Jun Feng, L.Chan, C.Petzold, C.Ralston, Synchrotron X-ray footprinting as a method to visualize water in proteins, J.Synchrotron Rad., 23,1056(2016)
11: L.Poyneer, N.F.Brejnholt, R.Hill, J.Jackson, L.Hagler,R.Celestre, Jun Feng, X-ray metrology and performance of a 45-cm long x-ray deformable mirror, Rev. Sci. Instru., 87, 052003(2016)
12: Jun Feng, J.Nasiatka, Weishi, Wan, S.Karkare, J.Smedley, H.Padmore, Thermal Limit to the intrinsic from metal photocathodes, Applied Physics Letters, 107, 134101(2015)
13: J. Feng, J. Nasiatka, W. Wan, T. Vecchione, and H. A. Padmore, A novel system for measurement of the transverse electron momentum distribution from photocathodes, Rev. Sci. Instrum, 86, 015103 (2015)
14: A. Polyakov,C. Senft, K. F. Thompson, J. Feng, S.Cabrini, P. J. Schuck, and H. A. Padmore Plasmon-Enhanced Photocathode for High Brightness and High Repetition Rate X-Ray Sources , Phy. Rev.Lett., 110, 076802 (2013)
15: , R.K.Li, , H.To, G. Andonian, J. Feng, A. Polyakov, C. M. Scoby, K. Thompson,W. Wan, H.A. Padmore, and P. Musumeci, Surface- Plasmon Resonance-Enhanced Multiphoton Emission of High-Brightness Electron Beams from a Nanostructured Copper cathode, Phy. Rev.Lett., 110, 074801 (2013)
16: F. Sannibale, D. Filippetto, C. F. Papadopoulos, J. Staples, R. Wells, B. Bailey, K. Baptiste, J. Corlett, C. Cork,S. De Santis, S. Dimaggio, L. Doolittle, J. Doyle, Jun Feng, D. Garcia Quintas, G. Huang, H. Huang, T. Kramasz,S. Kwiatkowski, R. Lellinger, V. Moroz, W. E. Norum, H. Padmore, C. Pappas, G. Portmann, T.Vecchione,M. Vinco, M. Zolotorev, and F. Zucca,Advanced photoinjector experiment photogun commissioning results, Phys. Rev. ST Accel. Beams, 15, (2012)103501
17: T.Vecchione, I.Ben-Zvi, D.H.Dowell, J.Feng, T.Rao, J.Smedley, W.Wan, H.A.PAdmore A low emittance and high efficiency visible light photocathode for high brightness accelerator based x-ray light source, Apllied Physics Letters, 99, 034103(2011)
18: B. I. Cho,K. Engelhorn,A. A. Correa,T. Ogitsu,C. P.Weber,H. J. Lee, J. Feng, P. A. Ni,Y. Ping,A. J. Nelson,D. Prendergast, R.W.Lee, R.W. Falcone,and P. A. Heimann, Electronic Structure of Warm Dense Copper Studied by Ultrafast X-Ray
Absorption Spectroscopy, PHYSICAL REVIEW LETTERS, 106,167601 (2011)
19: J.Feng, K.Engelhorn, B.I.Cho, H.J.Lee, M.Greaves, C.P.Weber, R.W.Falcone, H.A.Padmore, P.A.Heimann A grazing incidence x-ray streak camera for ultra-fast, single shot measurement , Applied Physics Letters, 96, 134102(2010)
20: J. Feng, H. J. Shin, J. R. Nasiatka, W. Wan, A. T. Young, G. Huang, A. Comin, J. Byrd, and H. A. Padmore, An x-ray streak camera with high spatio-temporal resolution, Appl. Phys. Lett. 91, 134102 (2007)
21: J Feng, E Forest, A AMacDowell, M Marcus, H Padmore, S Raoux, D Robin, A Scholl, R Schlueter, P Schmid, J Stöhr, W Wan, D H Wei and Y Wu An x-ray photoemission electron microscope using an electron mirror aberrationcorrector for the study of complex materials, J. Phys.: Condens. Matter 17, S1339 (2005)
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