杨 晴 (无机化学)

发布者:刘建伟发布时间:2012-10-31浏览次数:14832

姓 名:杨 晴 教授 博导

电 话: 0551-63600243(O) 0551 - 63600486(L)

电子邮件: qyoung@ustc.edu.cn

传 真:0551 - 3606266

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个人简历
EDUCATION AND RESEARCH EXPERIENCE
Qing Yang received his B.S. in Inorganic Chemical Engineering from Hefei University of Technology (HUT) in 1989, and he worked at Laboratory of Inorganic Chemical Engineering of Anhui Provincial Research Institute of Chemical Industry. In 1999, he received his M.S. in Applied Chemistry from HUT. After that he moved to the University of Science and Technology of China (USTC) as a Ph.D. candidate and received his Ph.D. in Inorganic Chemistry from USTC in 2002. From then on, he joined the Department of Chemistry of USTC as a faculty. He worked as a Visiting Associate Professor in City University of Hong Kong (CityU) from July to October 2008 supported by CityU, and also as a visiting scholar in Brown University from September 2009 to January 2010, granted by Cross-Disciplinary Project Award in 2009 from K. C. Wong Foundation of Hong Kong, Chinese Academy of Sciences (CAS). In 2006, he received Second-Class Natural Science Award, given by Anhui Provincial Government of China.

主要研究方向
1. Synthetic methodologies for solid-state materials including crystals, nanostructured crystals and thin films
2. Chemical synthesis, growth mechanism and property investigation of low-dimensional functional nanostructured crystals
获奖及荣誉

2006年 安徽省自然科学奖二等奖
2006年 入选教育部“新世纪优秀人才支持计划”
2009年 获助中国科学院王宽诚基金会“多学科交叉奖金项目”

 

文章及专著
1. Zhou, J; Yang, Q., Facile Synthesis of Monodisperse Noble Metal Nanoparticles and Highly Catalytic Performance for Organic Reactions in both Water and Oil Systems, Chemistry - An Asian Journal 2012, asia.201200337, in press.
2. Liu, H. Y.; Yang, Q., Feasible synthesis of etched gold nanoplates with catalytic activity and SERS properties, CrystEngComm, 2011, 13, 5488-5494.
3. Liu, H. Y.; Yang, Q., Facile fabrication of nanoporous Au-Pd bimetallic foams with high catalytic activity for 2-nitrophenol reduction and SERS property, Journal of Materials Chemistry, 2011, 21, 11961-11967.
4. Wu, F.; Yang, Q., Ammonium Bicarbonate Reduction Route to Uniform Gold Nanoparticles and Their Applications in Catalysis and Surface-Enhanced Raman Scattering, Nano Research, 2011, 4, 861-869.
5. Yu, F. Y.; Jian, Z.; Zhao, Z.; et al., Low temperature synthesis and photoluminescent properties of CaMoO4:Eu3+ red phosphor with uniform micro-assemblies, Materials Research Bulletin, 2011, 46, 1327-1332.
6. Liu, H. Y.; Yang, Q., A two-step temperature-raising process to gold nanoplates with optical and surface enhanced Raman spectrum properties, Crystengcomm, 2011, 13, 2281-2288.
7. Tan, X. Y.; Zhou, J; Yang, Q., Ascorbic acid-assisted solvothermal growth of gamma-In(2)Se(3) hierarchical flowerlike architectures, Crystengcomm, 2011, 13, 2792-2798.
8. Wang, J. L.; Yang, Q.; Zhou, J.; et al., Magnetic Fe(2)P Nanowires and Fe(2)P@C Core@Shell Nanocables, Nano Research, 2010, 3, 211-221.
9. Ma, J. J.; Qian, K.; Huang, W. X.; et al., Facile One-Step Synthesis of Double-Shelled CeO(2) Hollow Spheres and Their Optical and Catalytic Properties, Bulletin of the Chemical Society of Japan, 2010, 83, 1455-1461.
10. Wang, J. L.; Yang, Q.; Zhang, Z. D.; Sun, S. H., Phase-Controlled Synthesis of Transition-Metal Phosphide Nanowires by Ullmann-Type Reactions, Chemistry -A European Journal, 2010, 16, 7916-7924.
11. Wang, J. L.; Yang, Q.; Zhang, Z. D., Selective Synthesis of Magnetic Fe2P/C and FeP/C Core/Shell Nanocables, Journal of Physical Chemistry Letters, 2010, 1, 102-106.
12. Wang, J. L.; Yang, Q.; Zhang, Z. D.; et al., Synthesis of InP nanofibers from tri(m-tolyl)phosphine: an alternative route to metal phosphide nanostructures, Dalton Transactions, 2010, 39, 227-233.
13. Zhang, J. J.; Cheng, Y. Z.; Yang, Q., A simple complex-copolymer route to the fabrication of single crystalline alpha-Fe2O3 nanoplatelets in high yield, Materials Letters, 2009, 63, 2075-2077.
14. Wang, J. L.; Yang, Q.; Zhang, Z. D., Growth of One-Dimensional Hierarchical Multilayered Indium Nanostructures, Crystal Growth & Design, 2009, 9, 3036-3043.
15. Wang, J. L.; Yang, Q., A developed Ullmann reaction to III-V semiconductor nanocrystals in sealed vacuum tubes, Dalton Transactions, 2008, 6060-6066.
16. Wang, J. L.; Yang, Q., Benzene-thermal route to InP and InAs nanocrystals using triphenylphosphine and triphenylarsine as pnicogen sources, Chemistry Letters, 2008, 37, 306-307.
17. Zhao, D. L.; Yang, Q.; Han, Z. H.; et al., Biomolecule-assisted synthesis of rare earth hydroxycarbonates, Solid State Sciences, 2008, 10, 31-39.
18. Wang, J. L.; Yang, Q., One-dimensional angle-shaped ZnSe nanostructures: Synthesis and formation mechanism, Crystal Growth & Design, 2008, 8, 660-664.
19. Zhao, D. L.; Yang, Q.; Han, Z. H.; et al., Rare earth hydroxycarbonate materials with hierarchical structures: Preparation and characterization, and catalytic activity of derived oxides, Solid State Sciences, 2008, 10, 1028-1036.
20. Xu, S. B.; Yang, Q., Well-dispersed water-soluble Pd nanocrystals: Facile reducing synthesis and application in catalyzing organic reactions in aqueous media, Journal of Physical Chemistry C, 2008, 112, 13419-13425.
21. Sun, F. Y.; Yang, Q.; Zhao, D. L.; et al., Biomolecule-assisted synthetic route to nanostructured crystals: Synthesis of CdS hierarchical dendrites, Journal of Electronic Materials, 2007, 36, 1567-1573.
22. Yang, Q., Invited review chapter of ‘Recent progress in the synthesis of group III-V nanocrystals through solution routes’ in NEW TOPICS IN NANOTECHNOLOGY RESEARCH (ISBN: 1-60021-291-3), NOVA Publishers, 2007, 161-212.
More publications as see in Researcher ID: http://www.researcherid.com/rid/F-7705-2010