作者:聚创厦大考研网-小厦老师 点击量: 1076 发布时间: 2018-08-23 15:48 微信号: H17720740258
任斌
教授、博士生导师
电化学和分析化学方向
电话:(0592)2186532(实验室)
传真:(0592)2181906
电子邮箱:bren@xmu.edu.cn
课题组网站:http://bren.xmu.edu.cn
个人简历:
教育部“长江学者”特聘教授 (2016)
中组部“万人计划”领军人才(2016)
国家杰出青年基金 (2008)
博士(厦门大学,1998)
学士(厦门大学,1992)
洪堡学者(德国Fritz-Haber研究所,2002)
研究兴趣:
针尖增强拉曼光谱,表面增强拉曼光谱,光谱电化学,纳米电化学,电催化,表界面过程和机制,精准化学测量
近期主要代表论著:
1. Surface-Enhanced Raman Spectroscopy for Bioanalysis: Reliability and Challenges. C. Zong, M. X. Xu, L.J. Xu, T. Wei, X. Ma, X.S. Zheng, R. Hu, B. Ren*, Chem. Rev., 2018, DOI: 10.1021/acs.chemrev.7b00668.
2. A pasmonic sensor array with ultrahigh figures of merit and resonance linewidths down to 3 nm. B. W. Liu, S. Chen, J. C. Zhang, X. Yao, J. H. Zhong, H. X. Lin, T. X. Huang, Z. L. Yang, J. F. Zhu, S. Liu, C. Lienau, L. Wang,* B. Ren*, Adv. Mater., 2018, 1706031.
3. Plasmonic photoluminescence for recovering native chemical information from surface-enhanced Raman scattering, K. Q. Lin, Jun Yi, J. H. Zhong, S. Hu, B. J. Liu, J. Y. Liu, C. Zong, Z. C. Lei, X. Wang*, J. Aizpurua, R. Esteban*, B. Ren*, Nature Commun., 2017, 8, 14891.
4. Probing the electronic and catalytic properties of a bimetallic surface with 3 nm resolution, J. H. Zhong, X. Jin, L. Meng, X. Wang, H. S. Su, Z. L. Yang, C. T. Willams, B. Ren*, 2016, Nature Nanotechnol., 2017, 12, 132-136.
5. Electrochemical Tip-enhanced Raman Spectroscopy. Z. Cong Zeng, S. C. Huang, D. Y. Wu, L. Y. Meng, M. H. Li, T. X. Huang, J. H. Zhong, X. Wang, Z. L. Yang, B. Ren*, J. Am. Chem. Soc., 2015, 137, 11928-11931.
6. Transient electrochemical surface-enhanced Raman spectroscopy (TEC-SERS): a millisecond time-resolved study of an electrochemical redox process. C. Zong, C. J. Chen, M. Zhang, D. Y. Wu, B. Ren*, J. Am. Chem. Soc., 2015, 137, 11768-11774.
7. Reliable Quantitative SERS Analysis Facilitated by Core-Shell Nanoparticles with Embedded Internal Standards. W. Shen, X. Lin, C. Jiang, C. Li, H. Lin, J. Huang, S. Wang, G. Liu, X. Yan, Q. Zhong, B. Ren*, Angew. Chem. Int. Ed., 2015, 54, 7308-7311.
8. Label-free Surface-enhanced Raman Spectroscopy Detection of DNA with Single-base Sensitivity. L. Xu, Z. Lei, J. Li, C. Zong, C. Yang, B. Ren*, J. Am. Chem. Soc., 2015, 137, 5149-5154.
9. Quantitative Correlation between Defect Density and Heterogeneous Electron Transfer Rate of Single Layer Graphene. J. H. Zhong, J. Zhang, X. Jin, J. Y. Liu, Q. Y. Li, M. H. Li, W. W. Cai, D. Y. Wu, D. P. Zhan*, B. Ren*, J. Am. Chem. Soc., 2014, 136,16609-16617.
10. Activation of Oxygen on Gold and Silver Nanoparticles Assisted by Surface Plasmon Resonances, Y. F. Huang, M. Zhang, L. B. Zhao, J. M. Feng, D. Y. Wu*, B. Ren*, Z. Q. Tian, Angew. Chem. Int. Ed., 2014, 53, 2353-2357.
11. Probing the Location of Hot Spots by Surface-Enhanced Raman Spectroscopy: Toward Uniform Substrates. X. Wang, M. Li, L. Meng, K. Lin, J. Feng, T. Huang, Z. L. Yang,* B. Ren*, ACS Nano, 2014, 8, 528-536.
12. Rational Design and Synthesis gamma Fe2O3@Au Magnetic Gold Nanoflowers for Efficient Cancer Theranostics, J. Huang, M. Guo, H. T. Ke, C. Zong, B. Ren*, G. Liu, H. Shen, Y. F. Ma, X.Y. Wang, H. L. Zhang, Z. Wu Deng, H. B. Chen, Z. J. Zhang, Adv. Mater., 2015, 27, 5049.
13. Novel Electrochemical Raman Spectroscopy Enabled by Water Immersion Objective, Z. C. Zeng, S. Hu, S. C. Huang, Y. J. Zhang, W. X. Zhao, J. F. Li, C. Y. Jiang*, B. Ren*, Anal. Chem., 2016, 88, 9381-9385.
14. Raman Imaging from Microscopy to Nanoscopy, and to Macroscopy, C. Zong, X. S. Zheng, M. X. Xu, X. Wang*, B. Ren*, Small, 2015, 11, 3395-3406.
15. Revealing the molecular structure of single-molecule junctions in different conductance states by fishing-mode tip-enhanced Raman spectroscopy, Z. Liu, S. Y. Ding, Z. B. Chen, X. Wang, J. H. Tian, J. R. Anema, X. S. Zhou, D. Y. Wu, B. W. Mao, X. Xu, B. Ren*, Z. Q. Tian, Nature. Commun. 2011, 2, 305.
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