师资队伍

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副高职称

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赵传熙

职称:副教授

工作地点:蒙民伟理工楼307

电话:020-85224386转307

E-mail:tcxzhao@email.jnu.edu.cn

个人简介


赵传熙,男,中国共产党员。2013年12月毕业于中山大学获凝聚态物理专业博士学位,2014年3月加入暨南大学物理系。目前主持国家自然科学基金、广东省自然科学基金、中央高校基本业务经费等基金项目各1项,参与国家自然科学基金面上项目2项,省部级项目2项,参与纵向科研项目2项。已发表SCI学术论文20余篇,其中JCR-1区论文9篇,已申请发明专利2项。荣获2016-2017年度暨南大学优秀本科班主任荣誉称号(14应物班级获5A卓越班集体称号),2015-2016年度暨南大学优秀教职工称号,广东省物理实验设计大赛一、三等奖各1项(指导老师),广东省真空学会青年科技论文三等奖2项。


主讲课程


理论课程:《材料物理与工程导论》《平板显示技术基础》《光伏原理与技术》《前沿物理讲座》

实验课程:《大学物理实验》《近代物理实验》《材料物理实验I》《医用物理学实验》《物理学实验》


研究方向


光电转换与微纳器件物理,主要研究兴趣集中:超高速光电传感器件、硅基太阳能电池、光电化学水分解制氢、柔性超级电容器等方面的基础应用研究,主要涉及异质结纳米系统界面输运物理、低维纳米结构的场致电子隧穿及等。


研究成果


1. Peng Sun, Rui Lin, Zilong Wang, Meijia Qiu, Zhisheng Chai, Bodong Zhang, Hui Meng, Shaozao Tan, Chuanxi Zhao, Wenjie Mai, Rational design of carbon shell endows TiN@ C nanotube based fiber supercapacitors with significantly enhanced mechanical stability and electrochemical performance, Nano Energy 31, 432(2017)

2. Y Yuan, J Gu, KH Ye, Z Chai, X Yu, X Chen, C Zhao, Y Zhang, W MaiCombining Bulk/Surface Engineering of Hematite To Synergistically Improve Its Photoelectrochemical Water Splitting Performance, ACS applied materials & interfaces 8, 16071(2016)

3. M Qiu, P Sun, L Shen, K Wang, S Song, X Yu, S Tan, C Zhao, W Mai,WO3 nanoflowers with excellent pseudo-capacitive performance and the capacitance contribution analysis, Journal of Materials Chemistry A 4, 7266(2016)

4. L Shen, L Du, S Tan, Z Zang, C Zhao, W Mai, Flexible electrochromic supercapacitor hybrid electrodes based on tungsten oxide films and silver nanowires, Chemical Communications 52, 6296(2016)

5. Z Chai, N Zhang, P Sun, Y Huang, C. X. Zhao, HJ Fan, X Fan, W Mai, Tailorable and Wearable Textile Devices for Solar Energy Harvesting and Simultaneous Storage, ACS Nano 10, 9201(2016)

6. Z. Liang, P.Y. Zeng, P. Y. Liu, W. G. Xie, C. X. Zhao*, W. J. Mai. Interface Engineering To Boost Photoresponse Performance of Self-Powered, Broad-Bandwidth PEDOT: PSS/Si Heterojunction Photodetector, ACS Applied Materials & Interfaces 8, 19158(2016)

7. C. X. Zhao*, Z. M. Liang, M. Z. Su, P. Y. Mai, W. G. Xie, Self-powered, high-speed and visible-near infrared response of MoO3-x/n-Si heterojunction photodetector with enhanced performance by interfacial engineering, ACS applied materials & interfaces 7, 25981 (2015)

8. K.H. Ye; Z. S. Chai; J. Gu; X. Yu;C. X. Zhao; Y. Zhang; W. J. Mai, BiOI-BiVO4 photoanodes with significantly improved solar water splitting capability: pn junction to expand solar adsorption range and facilitate charge carrier dynamics, Nano Energy. 18, 222(2015)

9. C. X. Zhao, S. Z. Deng, N. S. Xu and 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, 70059-70063(2015)

10. J. P. Tian, C. X. Zhao, M. X. Wu, W. G. Xie, W. J. Mai, P. Y. Liu Thickness-dependence of S-shaped J–V curves of planar heterojunction organic solar cells containing NTCDA interlayer: Impedance–potential measurement and underlying mechanism, Solar Energy Materials and Solar Cells, 148, 3943(2015).

11. Z. M. Liang, M. Z. Su, Y. Zhou, L. Gong, C. X. Zhao, K. Chen, F. Xie, Weihong Zhang, Jian Chen, Pengyi Liu and Weiguang Xie, Interaction at the silicon/transition metal oxide heterojunction interface and its effect on the photovoltaic performance, Phys. Chem. Chem. Phys., 17, 27409-27413(2015)

12. C. X. Zhao, Yan Shen, S. Z. Deng, N. S. Xu, Jun Chen, Molybdenum Nanowall Cold Cathode With High Resistance to Oxidizing Environment, IEEE Transactions on Electron Devices. 61, 1760(2014)

13. C. X. Zhao, Y. F. Li, Y. C. Chen, J. Q. Wu, B. Wang, F. T. Yi, S. Z. Deng, N. S. Xu, and 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)

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

15. C. X. Zhao, Kai Huang, S. Z. Deng, N. S. Xu and 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)

16. C. X. Zhao, Y. F. Li, Jun Chen, S. Z. Deng and N S Xu, Tunable field emission characteristics of ZnO nanowires coated with varied thickness of lanthanum boride thin films, Ultramicroscopy, 113, 36(2013)

17. W. Q. Chen, C. X. Zhao, J. Q. Wu, S. Z. Deng, N. S. Xu and Jun Chen, Phonon-Assisted Field Emission from W18O49 Nanowires, Applied Physics Letter 103, 141915(2013).

18. C. X. Zhao, P. Wu, D. L. Zhang, R. Chen, L. F. Chi, T. Xiao, Synthesis and Photoluminescence of Zn2SnO4 Nanomaterials, Acta Phys.-Chin. Sin. 2010, 26(5), 1343-1348.

19. P Wu, Q Li, X Zou, W Cheng, D Zhang, C.X. Zhao, L Chi, T Xiao, Correlation between photoluminescence and oxygen vacancies in In2O3, SnO2 and ZnO metal oxide nanostructures, Journal of Physics: Conference Series, 188, 012054(2009)

20. P Wu, Q Li, C.X. Zhao, D.L. Zhang, L.F. Chi, Tan Xiao, Synthesis and photoluminescence property of indium oxide nanowires, Applied Surface Science, 255, 3201(2008).