庄军

教授,博士生导师

联系方式:复旦大学光学楼505室

电话:65642091

邮箱:junzhuang@fudan.edu.cn

教育经历

  • 1996年于中科院上海光学精密机械研究所获博士学位. 1996-1998年进入复旦大学物理系做博士后,1998年留校任教,先后在复旦大学物理系,光科学与工程系工作, 2000年至2001年于日本关系大学访问和工作。

  • 主要研究领域为计算材料科学,已在国内外刊物上发表SCI论文50余篇。负责主持的科研项目有国家自然 科学基金,上海市启明星人材计划基金,上海教育委员会科研创新重点基金等等

科研方向

  • 光辐照或光伏驱动下的材料气敏性质及其调控研究

  • 表面改性半导体材料在光电、气敏等方面的新特性及其应用

  • 材料结构、光学、光电等物理特性研究

科研成果

  • [1] Yang Zhao, Xiao-Long Liu, Sheng-Xiang Ma, Wen-Jing Wang, Xi-Jing Ning, Li Zhao, Jun Zhuang, Light-optimized photovoltaic self-powered NO2 gas sensing based on black silicon, Sensors & Actuators: B. Chemical 340 (2021) 129985

  • [2] Xiao-Long Liu, Yang Zhao, Wen-Jing Wang, Sheng-Xiang Ma, Xi-Jing Ning, Li Zhao, and Jun Zhuang, Photovoltaic self-powered gas sensing: a review, IEEE Sensors Journal, 2021, 21(5):5628-5644

  • [3] Xiao-Long Liu, Yang Zhao, Li Zhao, and Jun Zhuang, Light-enhanced room-temperature gas sensing performance of femtosecond-laser structured silicon after natural aging,Optics Express,2020,28(5):0-7237

  • [4] Xiao-Long Liu, Sheng-Xiang M, Su-Wan Zhu, Yang Zhao, Xi-Jing Ningc, Li Zhao, Jun Zhuang, Light stimulated and regulated gas sensing ability for ammonia using sulfur hyperdoped silicon, Sensors & Actuators: B. Chemical 291 (2019) 345–353

  • [5] Xiao-Long Liu, Yang Zhao, Sheng-Xiang Ma, Su-Wan Zhu, Xi-Jing Ning, Li Zhao, and Jun Zhuang, Rapid and Wide-Range Detection of NOx Gas by N‑Hyperdoped Silicon with the Assistance of a Photovoltaic Self-Powered Sensing Mode,ACS Sensors,October 15, 2019,3056

  • [6] Xiao-Long Liu, Su-Wan Zhu, Hai-Bin Sun,Yue Hu, Sheng-Xiang Ma, Xi-Jing Ning, Li Zhao, and Jun Zhuang,  “Infinite Sensitivity” of Black Silicon Ammonia Sensor Achieved by Optical and Electric Dual Drives, ACS Appl. Mater. Interfaces 2018, 10, 5061−5071

  • [7] Suwan Zhu, Xiaolong Liu, Jun Zhuang, and Li Zhao , A Fast Room Temperature NH3 Sensor Based on an Al/p-Si/Al Structure with Schottky Electrodes, Sensors, 2017, 17, 1929

  • [8] Sun, H.; Liang, C.; Feng, G.; Zhu, Z.; Zhuang, J.; Zhao, L. Improving crystallinity of femtosecond-laser hyperdoped silicon via co-doping with nitrogen. Opt. Mater. Express 2016, 6, 1321–1328.

  • [9] Zhu, Z ; Xiao, JM; Sun, HB; Hu, Y; Cao, RG; Wang, Y; Zhao, L; Zhuang, J, Composition-dependent band gaps and indirect-direct band gap transitions of group-IV semiconductor alloys, Physical Chemistry Chemical Physics, Vol.17,21605-21610 (2015)

  • [10] Xiao Dong, Ning Li, Zhen Zhu, Hezhu Shao, Ximing Rong, Cong Liang, Haibin Sun, Guojin Feng, Li Zhao, and Jun Zhuang, A nitrogen-hyperdoped silicon material formed by femtosecond laser irradiation, Applied Physics Letters 104, 091907 (2014)

  • [11] Bo-Yuan Ning,S. Yi, Jun Zhuang, J. Q. You and Wenxian Zhang,Manipulating dipolar and spin-exchange interactions in spin-1 Bose-Einstein con-densates, Physical Review A(2012), 053646

  • [12] Ning, Bo-Yuan; Zhuang, Jun; You, J. Q.; Zhang, Wenxian, Enhancement of spin coherence in a spin-1 Bose-Einstein condensate by dynamical decoupling approaches, Physical Review A ,Vol.84, 013606, 2011.

  • [13]Wenxian Zhang, Jian-Liang Hu, Jun Zhuang, J. Q.You,Ren-Bao Liu, Protection of center-spin coherence by a dynamically polarized nuclear spin core, Physical Review B,Vol.82,045314(2010)

  • [14] Yiqun Xie,Liuxue Ma,Peng Zhang,Xiulong Cai,Wenxian Zhang, Fuxi Gan,Xi-Jing Ning,and Jun Zhuang, Reversible atomic modification of nanostructures on surfaces using direction-depended tip-surface interaction with a trimer-apex tip, Applied Physics Letters 95,073105(2009)

  • [15] Wenxian Zhang and Jun Zhuang, Dynamical control of two-level system decay and long time freezing, Physical Review A, Vol.79,012310(2009)

  • [16] Y.Q.Xie, Q.W.Liu, P.Zhang, W.Q.Zhang, S.Y.Wang, M.Zhuang, Y.F.Li, F.X.Gan and J.Zhuang, Reliable lateral and vertical manipulations of a single Cu adatom on a Cu(111) surfacewith multi-atom apex tip: semiempirical and first-principles simulations, Nanotechnology,19,335710(2008)

  • [17] P.Zhang, Y.Q.Xie, X.J.Ning, J.Zhuang, Equilibrium structures and shapes of clusters on metal fcc(111) surfaces, Nanotechnology,19,255704(2008)

  • [18] Z.H.Sun, Q.W.Liu, Y.F.Li, and J.Zhuang, Structural studies of adatom clusters on metal fcc(110) surfaces by a genetic algorithm method, Physical Review B, Vol.72, 115405(2005)

  • [19] Zhuang J, Sun ZH, Zhang WH, Zhuang M, Ning XJ, Liu L, Li YF, Structures and magic numbers of adatom clusters on metal fcc (001) surfaces, Physical Review B, Vol.69, 165421(2004)