人物經歷
1978.09~1982.07: 上海華東理工大學 本科。
1982.09~1985.07: 中科院上海矽酸鹽研究所 碩士;導師:李家治 研究員。
1985.09~1989.10: 輕工業部上海玻璃陶瓷研究所;助理工程師。
1989.10~1993.11: 法國南巴黎大學(Université de Paris-Sud)固體物理實驗室(Laboratoire de Physique des Solides) 博士;導師:Prof. Maurice Kléman;論文題目: Défaults Structurales et Déformation Plastique de la phase T2 Icosahedrique du system Al-Li-Cu
1993.11~1995.09: 中科院北京電子顯微鏡實驗室;博士後
1995.09~1999.09: 北京大學物理系 副教授;
1996.11~1997.08: 香港城市大學 材料物理系Research Felllow;
1999.09~: 北京大學物理系 教授。
2012年,雲南省高端科技人才引進
2016.06~: 南方科技大學物理系 講席教授。深圳量子科學與工程研究院院長。
研究方向
一、 功能納米結構製備與納米加工: 主要涉及各種功能準一維納米結構(如納米管、半導體納米線)製備,可控制生長與摻雜研究;納米結構的顯微結構、生長機理與生長動力學研究;利用納米加工技術(離子束、電子束)和掃描探針技術(SPM)製備納米結構、納米器件;
二、低維物理與納米器件研究: 探索與低維尺度相關聯的基本物理問題:研究單根半導體納米線(管)的量子輸運性能;尺寸限制效應;場發射特性;發光譜特性;摻雜對納米結構物理性能的影響;利用這些功能納米管、納米線製備納米器件等。
三、電子顯微學在凝聚態物理中的套用研究: 電子顯微學在材料物理中發揮著越來越重要的作用,尤其是在低維材料(薄膜、量子阱、納米結構)研究中顯示出強大的威力。本實驗室利用現代電子顯微學的各種手段,如衍射術(高空間分辨,及各種分析方法,如EDS、PEELs)等,對低維材料,如納米材料、半導體量子阱、超導薄膜、發光薄膜材料等進行解剖,研究其微觀結構,揭示其生長機制,並探索材料顯微結構與物理性能的關係。
主要貢獻
承擔了包括國家傑出青年科學基金、海外傑出青年科學基金、973課題等研究項目,在半導體納米線製備與物性研究方面做出了一系列開創性和系統深入的研究工作,尤其是利用簡單熱蒸發方法製備矽納米線、氧化物納米線方面已引起國內外同行的重視,形成較廣泛的影響。截至2019年7月,在國際著名核心學術刊物上發表300餘篇論文,論文他人引用3000餘次,最高單篇他引超過280次,H 因子(H Factor)為31。收到多個國際刊物關於撰寫綜述文章的邀請。培養博士後、博士研究生、碩士研究生、本科生等60餘名,目前大都在國內外重要學術單位、公司任職、繼續深造。
主要學術成果
主要論文列表:
1.4 pi-Periodic Supercurrent from Surface States in Cd3As2 Nanowire-Based Josephson Junctions:Wang, AQ; Li, CT; et al.,Physical Review Letters 121:237701,2019.
2.Raman spectroscopy evidence for dimerization and Mott collapse in alpha-RuCl3 under pressures:Li, Gaomin; Chen, Xiaobin;et al.,Physical Review Materials 3:023601,2019.
3.Ultrafast Broadband Charge Collection from Clean Graphene/CH(3)NH(3)Pbl(3) Interface:Hong, Hao; Zhang, Jincan;et al.,Journal of the American Chemical Society 140:14952-14957,2018.
4.Atomic-Scale Probing of Reversible Li Migration in 1T-V1+xSe2 and the Interactions between Interstitial V and Li:Shao, Ruiwen; Chen, Shulin;et al.,Nano Letters 18: 6094-6099,2018.
5.Dirac Semimetal Heterostructures: 3D Cd3As2 on 2D Graphene:Wu, YF; Zhang, L; et al.,Advanced Materials 30: 1707547,2018.
6.Measurement of complex optical susceptibility for individual carbon nanotubes by elliptically polarized light excitation:Yao, Fengrui; Liu, Can;et al.,Nature Communications 9: 3387,2018.
7. Ultrabroadband spin-wave propagation in Co-2(Mn0.6Fe0.4)Si thin films: Stuckler, Tobias; Liu, Chuanpu; Liu, Tao; et al., Physical Review B 96: 144430, 2017.
8. Lin, Zhu; Zhou, Yong; Kong, Ling-Jian; et al., Interplay between topological surface states and superconductivity in SmB6/NbN tunnel junctions, Physical Review B 96: 165408,2017.
9. Niu, Jingjing; Yan, Baoming; Ji, Qingqing; et al., Anomalous Hall effect and magnetic orderings in nanothick V5S8, Physical Review B 96: 075402,2017.
10. Lin, Ben-Chuan; Wang, Shuo; Wang, Li-Xian; et al., Gate-tuned Aharonov-Bohm interference of surface states in a quasiballistic Dirac semimetal nanowire, Physical Review B 95 : 235436, 2017.
11. Kong, Lingjian; Zhou, Yong; Liu, Song; et al., Spin-polarized surface state transport in a topological Kondo insulator SmB6 nanowire:, Physical Review B 95: 235410,2017.
12. Xu, Xiaozhi; Zhang, Zhihong; Dong, Jichen et al., Ultrafast epitaxial growth of metre-sized single-crystal graphene on industrial Cu foil,, Science Bulletin 62(15): 1074-1080, 2017.
13. Wu, Yan-Fei; Song, Hua-Ding; Zhang, Liang; et al., Magnetic proximity effect in graphene coupled to a BiFeO3 nanoplate:. Physical Review B 95 : 195426,2017.
14. Wang, Qinsheng; Li, Cai-Zhen; Ge, Shaofeng; et al.,Ultrafast Broadband Photodetectors Based on Three-Dimensional Dirac Semimetal Cd3As2:, Nano Letters 17: 834, 2017.
15. Niu, Jingjing; Wang, Jingyue; He, Zhijie; et al., Electrical transport in nanothick ZrTe5 sheets: From three to two dimensions:, Physical Review B 95: 035420, 2017.
16. Song, Hua-Ding; Sheng, Dian; Wang, An-Qi; et al., Topological transport in Dirac electronic systems: A concise review:, Chinese Physics B 26: 1674,2017.
17. Xiaozhi Xu , Zhihong Zhang , Kaihui Liu et al., Ultrafast growth of single-crystal graphene assisted by a continuous oxygen supply, Nature Nanotechnology 11(11): 930-935, 2016.
18. Wang, Li-Xian; Li, Cai-Zhen; Yu, Da-Peng et al., Aharonov-Bohm oscillations in Dirac semimetal Cd3As2 nanowires, Nature Communications 7, 10769,2016 .
19. Zhao, Yicheng; Wei, Jing; Li, Heng . et al., A polymer scaffold for self-healing perovskite solar cells, Nature Communications 7, 10228, 2016
20. Li, Cai-Zhen; Wang, Li-Xian; Liu, Haiwen et al., Giant negative magnetoresistance induced by the chiral anomaly in individual Cd3As2 nanowires, Nature Communications 6,10137, 2015
21. Bie, Ya-Qing; Horng, Jason; Shi, Zhiwen et al.,Vibrational spectroscopy at electrolyte/electrode interfaces with graphene gratings, Nature Communications 6,7593,2015
22. Chen, Jing-Jing; Meng, Jie; Zhou, Yang-Bo; et al., Layer-by-layer assembly of vertically conducting graphene devices, Nature Communications 4, 1921, 2013.
23. Yu, Haiming; Granville, S.; Yu, D. P.; et al., Evidence for Thermal Spin-Transfer Torque, Physical Review Letters 104, 146601, 2010.
24. Zhu, X. L.; Ma, Y.; Zhang, J. S et al., Confined Three-Dimensional Plasmon Modes inside a Ring-Shaped Nanocavity on a Silver Film Imaged by Cathodoluminescence Microscopy, Physical Review Letters 105, 127402, 2010.
25. Liao, Zhi-Min; Wu, Han-Chun; Kumar, Shishir; et al.,Large Magnetoresistance in Few Layer Graphene Stacks with Current Perpendicular to Plane Geometry, Advanced Materials 24: 1862-1866, 2012.
26. Han, Xiaobing; Kou, Liangzhi; Zhang, Zhuhua; et al., Strain-Gradient Effect on Energy Bands in Bent ZnO Microwires, Advanced Materials 24: 4707-4711, 2012.
27. Bie, Ya-Qing; Zhou, Yang-Bo; Liao, Zhi-Min; et al., Site-Specific Transfer-Printing of Individual Graphene Microscale Patterns to Arbitrary Surfaces , Advanced Materials 23: 3938, 2011.
28. Bie, Ya-Qing; Liao, Zhi-Min; Zhang, Hong-Zhou et al., Self-Powered, Ultrafast, Visible-Blind UV Detection and Optical Logical Operation based on ZnO/GaN Nanoscale p-n Junctions, Advanced Materials 23: 649, 2011.
29. Bie, Ya-Qing; Liao, Zhi-Min; Wang, Peng-Wei; et al., Single ZnO Nanowire/p-type GaN Heterojunctions for Photovoltaic Devices and UV Light-Emitting Diodes, Advanced Materials 22: 4284, 2010.
30. Zhu, Xinli; Zhang, Yang; Zhang, Jiasen; et al., Ultrafine and Smooth Full Metal Nanostructures for Plasmonic, Advanced Materials 22: 4345, 2010.
31. Han, Xiaobing; Kou, Liangzhi; Lang, Xiaoli; et al., Electronic and Mechanical Coupling in Bent ZnO Nanowires, Advanced Materials 21: 4937, 2009.