杨玉华

个人基本简介: 

职  称: 副教授
学  位: 博士
毕业学校: 中山大学
联系电话:020-84113006
电子邮件:yangyuh3@mail.sysu.edu.cn

主要经历: 

2014年1月至今,中山大学物理科学与工程技术学院,副教授,硕士生导师

2008年7月-2013.12,中山大学物理科学与工程技术学院,讲师

学科方向: 

学科:材料物理与化学

研究领域:纳米材料科学

研究方向:纳米材料及纳米结构;材料生长物理基础;纳米材料物性调控及器件

欢迎对纳米材料科学感兴趣的本科生、研究生参加本课题组研究工作

荣誉获奖: 

2011年获国家自然科学奖二等奖(排名第四)

2010年全国优秀博士学位论文提名奖

2009年广东省优秀博士学位论文奖

代表论著: 

1.H.M.Dong, Y.H.Yang*, G.W.Yang*

"Directional emission from ZnO hexagonal disks"

ACS Applied Materials & Interfaces, 6, 3093, (2014)

2. H.M.Dong, Y.H.Yang* and G.W.Yang

“Growth and field emission property of ZnO nanograsses”

Materials Letters, 115, 176-179 (2014)

3. N.W.Wang, X.D.Chen, Y.H.Yang(共同第一), J.W.Dong and G.W.Yang*

“Diffuse reflection inside a hexagonal nanocavity”,

Scientific Reports, 3, 1298, (2013)

4. Y. H. Yang, Y. Zhang, N. W. Wang, C. X. Wang, B. J. Li and G. W. Yang*

“ZnO nanocone: Application in fabrication of the smallest whispering gallery optical resonator” ,

Nanoscale, 3, 592 (2011)

5. Y. H. Yang, J. W. Dong, N. W. Wang and G. W. Yang*

“Whispering gallery mode enhanced luminescence from an individual ZnO micro- and nanoscaled optical resonator”,

Journal of Applied Physics, 109, 093511(2011)

6. Y. H. Yang, H. G. Zhu and G. W. Yang*

“Growth, structure, and cathodoluminescence of Dy- doped ZnO nanowires” ,

Applied Physics A: Materials Science & Processing, 103, 73 (2011)

7. Y. H. Yang, Y. Feng and G. W. Yang*

“Experimental evidence and physical understanding of ZnO vapor- liquid-

solid nanowire growth” ,

Applied Physics A: Materials Science & Processing, 102, 319 (2011)

8. Y. H. Yang, Y. Feng, H. G. Zhu and G. W. Yang*

“Growth, structure, and cathodeluminescence of Eu-doped ZnO nanowires prepared by high- temperature and high- pressure pulsed-laser deposition” ,

Journal of Applied Physics, 107, 053502 (2010)

9. Y. H. Yang, and G. W. Yang*

“Temperature dependence and activation energy of ZnO nanowires grown on amorphous carbon” ,

Chemical Physics Letters, 494, 64 (2010)

10Y. H. Yang, X.Y.Chen, Y.Feng and G.W.Yang*

Physical mechanism of blue-shift of UV luminescence of a single pencil-like ZnO nanowire

Nano letters 7:3879-3883, (2007)

11Y. H. Yang, B. Wang and G.W.Yang*

Mechanisms of Self-Catalyst growth of agave-like Zinc Oxide nanostructures on amorphous Carbons

Crystal Growth and Design 7: 1242-1245, (2007)

12Y. H. Yang, B. Wang, N.S.Xu and G.W.Yang*

Field emission of one-dimensional micro- and nanostructures of Zinc Oxide

Applied Physics Letters 89: 043108, ( 2006)

13. H.M.Dong, Y.H.Yang, G.W.Yang*

Super low threshold plasmonic WGM lasing from an individual ZnO hexagonal microrod on an Au substrate for plasmon lasers

Scientific Reports, 5, 8776, (2014)

14. N. W. Wang, J. W. Dong, Y. H. Yang, Y. Zhang, X. T. He, C. X. Wang, B. J. Li and G. W. Yang*

 “General strategy for nanoscopic light source fabrication”,

 Advanced Materials, 23, 2937 (2011)

15. N. W. Wang, Y. H. Yang, and G. W. Yang*

 “Fabry- Peacuterot and whispering gallery mode enhanced luminescence from an individual hexagonal ZnO nanocolumn”.

  Applied Physics Letters, 97, 041917 (2010)

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