陈军

教授

联系方式:

020-84114381

教育经历: 

中山大学

授课课程: 

微纳电子器件,显示测量技术,微电子器件,光电集成工艺与技术

研究方向: 

微电子学与固体电子学(新型平板显示技术) 凝聚态物理(光电纳米材料物理与器件)

科研项目: 

主持完成国家重点基础研究发展计划(973)项目子课题、国家高技术研究发展计划(863计划)课题、国家自然科学杰出基金、国家自然科学基金等科研项目。

代表性科研成果: 

奖励:

2007年, "纳米冷阴极及其器件研制", 获国家自然科学奖二等奖(第二完成人)。

2006年, "纳米冷阴极及其器件研制", 获广东省科学技术奖(自然科学类)一等奖(第二完成人)。

2006年,获全国优秀博士学位论文奖。

2005年,入选教育部新世纪优秀人才支持计划

2001年,“金刚石及其相关薄膜的场致电子发射特性和机制”,获国家自然科学奖二等奖(第三完成人)。

2000年,“金刚石及其相关薄膜的场致电子发射特性和机制”, 获广东省科学技术奖(自然科学类)一等奖(第三完成人)。

1999年,“碳60(C60)及相关材料的研究”,获广东省自然科学奖二等奖(第三完成人)。

 

代表论著:

1.      Daokun Chen, Xiaomeng Song, Zhipeng Zhang, Ziping Li, Juncong She, Shaozhi Deng, Ningsheng Xu, Jun Chen*, Transmission type flat-panel X-ray source using ZnO nanowire field emitters, Applied Physics Letters 107, 243105-1-5 (2015).

2.      Hai Ou, Kai Wang*, Cairong Ding, S. Z. Deng, N. S. Xu, Jun Chen*,Dual-gate photosensitive a-Si:H thin-film transistor with a π-shape channel for large-area imaging and sensing, IEEE Electron Device Letters, 36, (12), 1373(2015).

3.    Zufang Lin, Wenqing Chen, Runze Zhan, Yicong Chen, Zhipeng Zhang, Xiaomeng Song, Juncong She, Shaozhi Deng, Ningsheng Xu, Jun Chen*, Thermal-enhanced field emission from CuO nanowires due to defect-induced localized states, AIP Advances 5, 107229 (2015).

4.      Fuhao Chen, Peng Ye, Feng Huang, Jun Chen*, Method for 3D gray-to-gray crosstalk uniformity measurement with high perceptual relevance, Journal of Information Display,16(4), 195-205(2015).

5.      K. Wang*, H. Ou, Jun Chen*, Dual-Gate Photosensitive Thin-Film Transistor-Based Active Pixel Sensor for Indirect-Conversion X-Ray Imaging, IEEE Transactions on Electron Devices, 62(9), 1894-1899(2015).

6.      C. X. Zhao, S. Z. Deng, N. S. Xu, Jun Chen*, Correlation between surface chemistry, gasochromism and field emission properties of tungsten oxide nanowire thin films when exposed to atomic oxygen, RSC Advances, 5, 70059 (2015).

7.      Luting Wang, Hai Ou, Jun Chen*, Kai Wang*, A Numerical Study of an Amorphous Silicon Dual-Gate Photo Thin-Film Transistor for Low-Dose X-ray Imaging, Journal of Display Technology, 11(8), 646-651(2015).

8.      Fuhao Chen, Jun Chen*, Feng Huang, Precise evaluation of LCD gray-to-gray response time based on a reference pattern synchronous measurement using high speed charge-coupled device camera, Journal of Society for Information Display, 22(8), 429-436(2015).

9.      Xiaomeng Song, Jun Chen*, Non-crystallization and enhancement of field emission of cupric oxide nanowires induced by low-energy Ar ion bombardment, Applied Surface Science, 329, 94-103(2015).

10.   Shunyu Jin, Yan Tian, Fei Liu,* Jun Chen, Shaozhi Deng, Ningsheng Xu*, Intense green-light emission from 9,10-bis(4-(1,2,2-triphenylvinyl)styryl) anthracene emitting electroluminescent devices, J. Mater. Chem. C, 3, 8066(2015).

11.   Shunyu Jin, Yan Tian, Fei Liu*, Shaozhi Deng, Jun Chen, Ningsheng Xu*, Mechanism of TPE-An by STS Technique, Nanoscale Research Letters 10, 348 (2015).

12.   Zhuo Xu, Fei Liu*, Daokun Chen, Tongyi Guo, Shunyu Jin, Shaozhi Deng, Ningsheng Xu, Jun Chen*, A simple SVS method for obtaining large-scale WO3 nanowire cold cathode emitters at atmospheric pressure and low temperature, CrystEngComm, 17,1065-1072(2015).

13.   Shunyu Jin, Fei Liu∗, Shaozhi Deng, Xiang Zhou,Jun Chen, Ningsheng Xu∗, Study of the Interface Interaction Mechanism Between 9,10-Bis(4-(1,2,2-triphenylvinyl) styryl) anthracene Film and Si Substrate, Science of Advanced Materials, 7, 1694–1700(2015).

14.   Y C Chen, S Z Deng, N S Xu, Jun Chen*, Origin of the Ring-shaped Emission Pattern Observed from the Field Emission of ZnO Nanowire: Role of Asorbates and Electron Initial Velocity, Materials Research Express, 1, 045050(2014).

15.   W. Q. Chen, R. Z. Zhan, S. Z. Deng, N. S. Xu, Jun Chen*, Anomalous temperature dependence of field emission from W18O49 nanowires caused by surface states and field penetration; Journal of Applied Physics, 116(13), 133506(2014).

16.   Chuan Xi Zhao, Yan Shen, Shao Zhi Deng, Ning Sheng Xu, Jun Chen*, Molybdenum Nanowall Cold Cathode With High Resistance to Oxidizing Environment, IEEE Transactions on Electron Devices, 61(6), 1760-3(2014).

17.   Yu Zhang, Deliu Deng, Lijun Zhu, Shaozhi Deng*, Jun Chen, Ningsheng Xu, Pulse Field Emission Characteristics of Vertical Few-Layer Graphene Cold Cathode, IEEE Transactions on Electron Devices, 61(6), 1771-5(2014).

18.   Fei Liu*, Haibo Gan, Dai-Ming Tang, Yunzhe Cao, Xiaoshu Mo, Jun Chen, Shaozhi Deng, Ningsheng Xu, D. Golberg, Y. Bando, Growth of Large-Scale Boron Nanowire Patterns with Identical Base-Up Mode and In Situ Field Emission Studies of Individual Boron Nanowire, Small, 10(4), 685-93(2014).

19.   J. Q. Wu, S. Z. Deng, N. S. Xu, Jun Chen*, Field emission from a-Fe2O3 nanoflakes: effect of vacuum pressure, gas adsorption and in-situ thermal treatment, Applied Surface Science, 292, 454- 461(2014).

20.   J. Q. Wu, B. Wang, F. T Yi, S. Z. Deng, N. S. Xu, Jun Chen*, Improvement of Field Emission Properties of a-Fe2O3 Nanoflakes Due to the Lowered Back Contact Barrier after High Energy X-ray Irradiation, Journal of Applied Physics, 114, 184306-1-11(2013).

21.   W. Q. Chen, C. X. Zhao, J. Q. Wu, S. Z. Deng, N. S. Xu, Jun Chen*, Phonon-assisted field emission from W18O49 nanowires, Applied Physics Letters 103, 141915 (2013)

22.   C. X. Zhao, Y. F. Li, J. Zhou, L. Y. Li, S. Z. Deng, N. S. Xu, Jun Chen*, Large-Scale Synthesis of Bicrystalline ZnO Nanowire Arrays by Thermal Oxidation of Zinc Film: Growth Mechanism and High-Performance Field Emission, Crystal Growth & Design, 13, 2897−2905(2013).

23.   C. X. Zhao, Y. F. Li, Y. C. Chen, J. Q. Wu, B. Wang, F. T. Yi, S. Z. Deng, N. S. Xu, Jun Chen*, Microstructure change of ZnO nanowire induced by energetic x-ray radiation and its effect on the field emission properties, Nanotechnology 24, 275703(2013).

24.   J. Q. Wu, Y. Zhang, B. Wang, F. T. Yi, S. Z. Deng, N. S. Xu, Jun Chen*, Effects of X-ray irradiation on the structure and field electron emission properties of vertically aligned few-layer graphene, Nuclear Instruments and Methods in Physics Research B 304, 49-56(2013).

25.   C. X. Zhao, Y. F. Li, S.Z. Deng, N.S. Xu, Jun Chen∗, Tunable field emission characteristics of ZnO nanowires coated with varied thickness of lanthanum boride thin films, Ultramicroscopy 132, 36-40(2013)

26.   C. X. Zhao, K. Huang, S. Z. Deng, N. S. Xu, Jun Chen*, Investigation of the effects of atomic oxygen exposure on the electrical and field emission properties of ZnO nanowires, Applied Surface Science, 270, 82 (2013).

27.   Y. Zhang, Shaozhi Deng, Jiale Du, Xinyu Lai, Jun Chen, Ningsheng Xu, Effects of Pulse width and Area of Carbon Nanotube Films on Their Pulsed Field Emission Characteristics, IEEE Transactions on Electron Devices, 60(8), 2677-2681(2013)

28.   J. B. Chen, Z. G. Chi, Z. Y. Yang, S. Z. Deng*, J. C. She, B. J. Xu, Jun Chen, J. R. Xu, N. S. Xu*, Solution-processed organic thin films based on aggregation-induced emission materials, Thin Solid Films, 526, 15-21(2012).

29.   X. G. Xu, Jun Chen*, S. Z. Deng, N. S. Xu, H. B. Liang, Q. Su, and J. Lin, High luminescent Li2CaSiO4:Eu2+ cyan phosphor film for wide color gamut field emission display, Optics Express, 20, 17701 (2012).

30.   Y. Shen, S. Z. Deng*, Yu Zhang, F. Liu, Jun Chen, N. S. Xu*, Highly conductive vertically aligned molybdenum nanowalls and their field emission property, Nanoscale Research Letters, 7, 463(2012).

31.   Yu Zhang, J. L. Du, S. Tang, P. Liu, S. Z. Deng*, Jun Chen, N. S. Xu, Optimize the field emission character of a vertical few-layer graphene sheet by manipulating the morphology, Nanotechnology, 258(2), 015202(2012).

32.   G. G. Li, X. G. Xu, C. Peng, M. M. Shang, D. L. Geng, Z. Y. Cheng, Jun Chen, J. Lin*, Yellow-emitting NaCaPO4:Mn2+ phosphor for field emission displays, Optics Express, 19(17), 16423 (2011).

33.   Jun Yu*, Jun Chen, S. Z. Deng, N. S. Xu, Field emission characteristics of screen-printed carbon nanotubes cold cathode by hydrogen plasma treatment, Applied Surface Science, 258(2), 738 (2011).

34.   Yu Zhang, M. X. Liao, S. Z. Deng*, Jun Chen, N. S. Xu, In situ oxygen-assisted field emission treatment for improving the uniformity of carbon nanotube pixel arrays and the underlying mechanism, Carbon, 49(10), 3299-3306(2011).

35.   Yu Zhang, J. L. Du, J. H. Xu, S. Z. Deng*, N. S. Xu, Jun Chen, The effect of amorphous carbon layer on the field emission characteristics of carbon nanotube film, Ultramicroscopy, 111(6),426 (2011).

36.   L. F. Zhu, J. C. She*, J. Y. Luo, S. Z. Deng, Jun Chen, X. W. J, N. S. Xu*, Self-heated hydrogen gas sensors based on Pt-coated W18O49 nanowire networks with high sensitivity, good selectivity and low power consumption, Sensors and Actuators B-Chemical, 153(2), 354 (2011).

37.   J. K. Yao, N. S. Xu, S. Z. Deng, Jun Chen, J. C. She, H. P. D. Shieh, P. T. Liu, Y. P. Huang, Electrical and Photosensitive Characteristics of a-IGZO TFTs Related to Oxygen Vacancy, IEEE Transactions on Electron Devices, 58(4), 1121 (2011).

38.   J. Luo, Jun Chen*, S. Z. Deng, N. S. Xu*, Evaluation of a simplified simulation approach for thin film type gated field emitters, Journal of Vacuum Science & Technology B 29(2), 02B102(2011).

39.   P. R. Shao, S. Z. Deng, Jun Chen, N. S. Xu*, Fabrication and field emission performance of arrays of vacuum microdiodes containing CuO nanowire emitters grown directly on glass without a catalyst, Chinese Science Bulletin, 56(9), 906 (2011).

40.   P. R. Shao, S. Z. Deng*, Jun Chen, J. Chen, N. S. Xu*, Study of field emission, electrical transport, and their correlation of individual single CuO nanowires, Journal of Applied Physics, 109(2), 023710(2011).

41.   F. Liu, F. Y. Mo, S. Y. Jin, L. Li, Z. S. Chen, R. Sun, Jun Chen, S. Z. Deng and N. S. Xu*, A novel lift-off method for fabricating patterned and vertically-aligned W18O49 nanowire arrays with good field emission performance, Nanoscale, 3, 1850(2011).

42.   P. R. Shao, S. Z. Deng, Jun Chen, J. Chen, N.S. Xu*, Large-scale fabrication of ordered arrays of microcontainers and the restraint effect on growth of CuO nanowires, Nanoscale Research Letters, 6, 86(2011).

43.   F. Liu, Z. J. Su, F. Y. Mo, L. Li, Z. S. Chen, Q. R. Liu, Jun Chen, S. Z. Deng, N. S. Xu*, Controlled synthesis of ultra-long AlN nanowires in different densities and in situ investigation of the physical properties of an individual AlN nanowire, Nanoscale, 3 (2), 610 (2011).

44.   F. Liu, L. Li, F. Y. Mo, Jun Chen, S. Z. Deng*, N. S. Xu*, A Catalyzed-Growth Route to Directly Form Micropatterned WO2 and WO3 Nanowire Arrays with Excellent Field Emission Behaviors at Low Temperature, Crystal Growth & Design, 10(12), 5193 (2010).

45.   F. Liu, F. Y. Mo, L. Li, Z. J. Su, Z. Q. Huang, S. Z. Deng, Jun Chen, N. S. Xu, No-catalyst growth of vertically-aligned AlN nanocone field electron emitter arrays with high emission performance at low temperature, Chinese Physics B19(10), 107205(2010).

46.   L. F. Zhu, J. C. She, J. Y. Luo, S. Z. Deng, Jun Chen, N. S. Xu, Study of Physical and Chemical Processes of H2 Sensing of Pt-Coated WO3 Nanowire Films,J. Phys. Chem. 114,15504 (2010).

47.   D. M. Ban, N. S. Xu, S. Z. Deng, Jun Chen and J.C. She, Low-temperature Synthesis of Large-area Films of Molybdenum Trioxide Microbelts in Air and the Dependence of Their Field Emission Performance on Growth Conditions, Journal of Materials Science & Technology, 26(7), 584 (2010).

48.   F. Liu, Z. J. Su, L. Li, F. Y. Mo, S. Y. Jin, S. Z. Deng, Jun Chen, C. M. Shen, H. J. Gao, N. S. Xu, Effect of Contact Mode on the Electrical Transport and Field-Emission Performance of Individual Boron Nanowires, Advanced Functional Materials, 20(12),1994 (2010).

49.   Z. L. Li, S. Z. Deng, N. S. Xu, F. Liu, Jun Chen, Enhanced Field Emission from Large-Area Arrays of W18O49 Pencil-Like Nanostructure, Chinese Physics Letters, 27(6), 068504(2010).

50.   X. G. Xu, Jun Chen*, S. Z. Deng, and N. S. Xu, J. Lin, Cathodoluminescent properties of nanocrystalline Lu3Ga5O12:Tb3+ phosphor for field emission display application, Journal of Vacuum Science & Technology B 28(3), 490 (2010).

51.   R. Z. Zhan, Jun Chen*, S. Z. Deng, and N. S. Xu*, Fabrication of gated CuO nanowire field emitter arrays for application in field emission display, Journal of Vacuum Science & Technology B 28(3), 558 (2010).

52.   J. Q. Wu, Jun Chen*, S. Z. Deng, and N. S. Xu*, Field emission properties of alpha-Fe2O3 nanotips prepared on indium tin oxide coated glass by thermal oxidation of iron film, Journal of Vacuum Science & Technology B, 28, C2B34 (2010).

53.   R. Z. Zhan, Jun Chen*, S. Z. Deng, and N. S. Xu*, Study of techniques for improving emission uniformity of gated CuO nanowire field emitter arrays, Journal of Vacuum Science & Technology B, 28, C2C45 (2010).

54.   J. Luo, Jun Chen*, S. Z. Deng, Yu Zhang, and N. S. Xu*, Double-gate-driving field emission display panel with stacked-metalized-aperture structure, Journal of Vacuum Science & Technology B, 28, C2D15 (2010).

55.   Z. L. Li, F. Liu, N. S. Xu, Jun Chen, S. Z. Deng, A study of control growth of three-dimensional nanowire networks of tungsten oxides: From aligned nanowires through hybrid nanostructures to 3D networks, Journal of Crystal Growth, 312, 520 (2010).

56.   J. B. Chen, C. J. Xu, J. C. She, S. Z. Deng, Jun Chen, 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).

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