佘峻聪

教授

联系方式

020-84113295

教育经历: 

1993年9月—1997年6月:中山大学物理学系就读本科

专业:物理学;获学士学位

1997年9月—1999年6月:中山大学物理科学与工程技术学院就读硕士

专业:凝聚态物理学;硕士学习两年后转读博士

1999年9月—2005年12月:中山大学物理科学与工程技术学院攻读博士学位

(其间2001/01-05, 2002/04-10赴英国卢瑟福阿普尔顿实验室开展合作研究)

专业:凝聚态物理学

授课课程: 

《大学物理》

《微纳电子器件》

研究方向: 

科方向:

所在学科:微电子学和固体电子学;凝聚态物理学

研究生招生专业(方向)

博士:微电子与固体电子学(真空纳电子学;纳米电子器件与技术)

硕士:微电子与固体电子学(真空纳电子学;纳米电子器件与技术);凝聚态物理学(光电纳米材料物理与器件;新型冷阴极材料物理)

每年在上述专业招收博士生、硕士生3-4名。

欢迎本科生进入实验室开展本科生科研项目和实验技能训练。

科研项目: 

[1] 国家自然科学基金委优秀青年基金项目,真空纳米电子学,2013/1-2015/12。

[2] 国家自然科学基金面上项目,单层石墨烯边缘局域电子特性表征及二维场发射电子源应用探索,2013/01-2016/12。

[3] 国家自然科学基金面上项目,氧化锌纳米冷阴极物性调控、原位微区表征研究及场发射机理探索,2010/01-2012/12。

[4] 国家自然科学基金面上项目,带控制栅极单纳米冷阴极原型器件阵列的研究,2008/01-2010/12。

[5] 国家自然科学基金青年基金项目,单纳米冷阴极电子源阵列的研究,2007/01-2007/12。

[6] 教育部高等学校博士学科点专项基金(博导类),有源调控石墨烯薄膜场发射阴极阵列研究,2013/1-2015/12。

[7] 教育部全国优秀博士论文作者资金资助项目,有源驱动纳米冷阴极场发射微显示研究,2009/01-2013/12。

[8] 广东省自然科学基金(博士启动基金)项目,带栅极真空纳米电子源阵列的研究,2007/01-2008/12。

[9] 广州科技攻关重点项目,电子墨水显示材料与超薄平板显示器件研制,2007/01-2008/12。

代表性科研成果: 

荣誉获奖:

2013年获聘广东省“珠江学者”特聘教授;

2012年入选广东省高校“千百十工程”第七批培养对象(省级);

2010年入选教育部新世纪优秀人才支持计划;

2008年获全国优秀博士学位论文奖;

2007年获国家自然科学奖二等奖(第五完成人);

2001年获国家自然科学奖二等奖(第四完成人)。

代表论著:

第一作者或通讯作者论文(标注*为通讯作者)

[25] Y F Huang, Z X Deng, W L Wang, J C She*, C L Liang, S Z Deng, and N S Xu*, Field-Induced Crystalline-to-Amorphous Phase Transformation on the Si Nano-Apex and the Achieving of Highly Reliable Si Nano-Cathodes, Scientific Report 5, 10631 (2015).

[24] Y Huang, J C She*, W J Yang, S Z Deng, N S Xu, Control-Assembly of Layer-by-Layer Stacking Continuous Graphene Oxide Films and Its Application for Actively-Controlled Field Electron Emission Cathode, Nanoscale 6,4250-4257(2014).

[23] D Li, J C She*, S Z Xu, S Z Deng, Zinc Oxide Nanowire Lateral Field Emission Devices and its Application as Display Pixel Structures, IEEE Transactions on Electron Devices 60(9),2914-2930(2013).

[22]Z F Zhang, J C She*, H J Chen, S Z Deng, N S Xu, Laser-Induced Doping and Fine Patterning of Massively-Prepared Luminescent ZnS Nanospheres, Journal of Materials Chemistry C 1 (32),4970-4978(2013).

[21] Wenjie Yang, Juncong She*, Shaozhi Deng, and Ningsheng Xu, Field Emission from a MOSFET-Controlled ZnO Nanowire Cold Cathode, IEEE Transactions on Electron Devices 59, 3461 (2012).

[20] Y Huang, W L Wang, J C She*, Z B Li and S Z Deng, Correlation between carbon-oxygen atomic ratio and field emission performance of few-layer reduced graphite oxide, Carbon 50, 2657 (2012).

[19] H He, J C She*, Y F Huang, S Z Deng, and N S Xu*, Precisely-controlled Fabrication of Single ZnO Nanoemitter Arrays and Their Possible Application in Low Energy Parallel Electron Beam Exposure, Nanoscale 4(6) 2101 (2012).

[18] Z M Xiao, J C She*, S Z Deng and N S Xu*, Large Piezoresistance of Single Silicon Nano-needles Induced by Non-Uniaxial Strain, Journal of Applied Physics 110, 114323 (2011).

[17] Z M Xiao, J C She*, S Z Deng, Z K Tang, Z B Li, J M Lu, and N S Xu*, Field Electron Emission Characteristics and Physical Mechanism of Individual Single-Layer Graphene, ACS Nano 4 (11), pp 6332–6336 (2010).

[16] J B Chen, C J Xu, J C She*, S Z Deng, Jun Chen and N S Xu, Pulsed-Laser Treatment of Solution-Grown ZnO Nanowires in Nitrogen: Enhancing in Electrical Conduction and Field Emission, Journal of Applied Physics 107, 024312 (2010).

[15] Z M Xiao, J C She*, Z B Li, Y H Yang, G W Yang, S Z Deng, Jun Chen and N S Xu*, Oscillating Current Observed in Field Emission From A Single Zinc Oxide Nanostructure And the Physical Mechanism, Journal of Applied Physics, 106 (1): Art. No. 014310 JUL 1 (2009).

[14] L W Feng, Jun Liu, J C She*, N S Xu, S Z Deng and Jun Chen, Three-dimensional, Six-fold Symmetry ZnO Sub-microstructures, Journal of Crystal Growth, 311, p1435-1440 (2009).

[13] J C She, Z M Xiao, Y H Yang, S Z Deng, Jun Chen, G W Yang*, and N S Xu*, Correlation between Resistance and Field Emission Performance of Individual Zno One-Dimensional Nanostructures, Acs Nano, 2(10): p2015-2022, OCT (2008).

[12] R H Yao, J C She*, N S Xu, S Z Deng and Jun Chen, Self-Assembly of Au-Ag Alloy Nanoparticles by Thermal Annealing, Journal of Nanoscience and Nanotechnology 8 (7): p3487-3492 JUL (2008).

[11] Jun Liu, J C She*, S Z Deng, Jun Chen, and N S Xu*, Ultrathin Seed-Layer for Tuning Density of Zno Nanowire Arrays and Their Field Emission Characteristics, Journal of Physical Chemistry C 112 (31): 11685-11690 Aug 7 (2008).

[10] J C She, S An, S Z Deng, Jun Chen, Z M Xiao, J Zhou and N S Xu*, Laser welding of a single tungsten oxide nanotip on a handleable tungsten wire: A demonstration of laser-weld nanoassembly, Applied Physics Letters 90 (7): Art. No. 073103 FEB 12 (2007).

[9] J C She, Hao He, N S Xu*, S Z Deng, Jun Chen, S E Huq and L Wang, Arrays of Vacuum Microdiodes Using Uniform Diamondlike-Carbon Tip Apexes, Applied Physics Letters 89 (23): Art. No. 233518 DEC 4 (2006).

[8] J C She, S Z Deng*, N S Xu*, R H Yao, and J Chen, Fabrication of vertically aligned Si nanowires and their application in a gated field emission device, Applied Physics Letters, 88 (1): Art. No. 013112, JAN (2006).

[7] J C She, K Zhao, S Z Deng, J Chen and N S Xu*, Field Electron Emission of Si Nanotips with Apexes of Various Compositions, Applied Physics Letters 87 (5): Art. No. 052105 (2005).

[6] J C She, N S Xu*, S Z Deng, Jun Chen, Z B Li, S E Huq and L Wang, Experimental Evidence of Resonant Field Emission from Ultrathin Amorphous Diamond Thin Film, Surface and Interface Analysis 36 (5-6): p461-464 MAY-JUN (2004).

[5] J C She, N S Xu*, S Z Deng, Jun Chen, H Bishop, S E Huq, L Wang, D Y Zhong and E G Wang, Vacuum Breakdown of Carbon-Nanotube Field Emitters on a Silicon Tip, Applied Physics Letters, 83 (13), p2671-2673, SEP 29 (2003).

[4] J C She, N S Xu*, S E Huq, S Z Deng and Jun Chen, Silicon Tip Arrays with Ultrathin Amorphous Diamond Apexes, Applied Physics Letters, 81(22), p4257-4259 (2002).

[3]J C She, Jun Chen, S Z Deng, X G Zheng and N S Xu*, An Experimental Study of the Field Emission Characteristics of Thin Films of an New Organic Compound CaCuB3, Ultramicroscopy, 79, p149-153 (1999).

[2]J C She, Y Y Yang, X M Chen, Jun Chen, S Z Deng, X G Zheng and N S Xu*, Preparation and Characterization of the [CaCu (bet)4](ClO4)4 Thin Films, Thin Solid Films 349, p225-229 (1999).

[1]J C She, S E Huq, Jun Chen, S Z Deng and N S Xu*, Comparative Study of Electron Emission Characteristics of Silicon Tip Arrays with and without Amorphous Diamond Coating, Journal of Vacuum Science & Technology B 17(2), p592-595 (1999).

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