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研究方向: 表面(等离激元)增强拉曼光谱;谱学电化学;纳米化学;分子组装
博士 (英国南安普敦大学,1987)
学士(必赢国际官方入口)
博士后(必赢国际官方入口化学系)
中国科学院院士
第三世界科学院院士
国际电化学会当选主席
英国皇家化学会会士
先后获得国家杰出青年科学基金、基金委首批创新研究群体基金资助,曾国家教委科技进一步二等、香港求是科技基金会杰出青年学者奖和中国高校自然科学一等奖。
表面(等离激元)增强拉曼光谱;谱学电化学;纳米化学;分子组装
1. Revisiting the Atomistic Structures at the Interface of Au(111) Electrode-Sulfuric Acid Solution. Journal of the American Chemical Society, 142(20): 9439-9446, 2020
2. Plasmon-Mediated Chemical Reactions on Nanostructures Unveiled by Surface-Enhanced Raman Spectroscopy. Accounts of Chemical Research, 52(10): 2784-2792, 2019
3. In situ probing electrified interfacial water structures at atomically flat surfaces. Nature Materials, 18(7): 697-701, 2019
4. From plasmon-enhanced molecular spectroscopy to plasmon-mediated chemical reactions. Nature Reviews Chemistry, 2:216–230, 2018
5. Nanostructure-based plasmon-enhanced Raman spectroscopy for surface analysis of materials. Nature Reviews Materials, 1(6): 16021(1-16), 2016
6. Dielectric shell isolated and graphene shell isolated nanoparticle enhanced Raman spectroscopies and their applications. Chemical Society Reviews, 44(23):
8399-8409, 2015
7. What molecular assembly can learn from catalytic chemistry, Chemical Society Reviews, 43(1): 399-411, 2014
8. Shell-Isolated Nanoparticle-Enhanced Raman Spectroscopy. Nature, 464 (7287): 392-395, 2010
9. Adsorption and Reaction at Electrochemical Interfaces as Probed by Surface-Enhanced Raman Spectroscopy. Annual Review of Physical Chemistry, 55: 197-299, 2004.
10. Surface-Enhanced Raman Scattering: From Noble to Transition Metals and from Rough Surfaces to Ordered Nanostructures. Journal of Physical Chemistry B, 106(37): 9463-9483, 2002