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    美国乔治亚州立大学王刚立教授来访

    发表时间:2015-09-25 阅读次数:

    近日,应冯光老师邀请,美国乔治亚州立大学王刚立老师来访访问了课题组,并于9月23日下午在动力楼201做了题为“ Nanotransport in Electrochemistry for Energy Conversion”的学术报告。

    报告题目:Nanotransport in Electrochemistry for Energy Conversion

    报 告 人:Gangli Wang教授,Georgia State University

    报告时间:2015年9月23日下午4:30-6:00

    报告地点:动力楼201室

    摘要:The talk will be centered at fundamental electrochemistry concepts and the applications in selective ion transport for better desalination and energy conversion. We will start by the development of microelectrode sensors for microRNAs as disease biomarkers. An electrocatalytic signal amplification mechanism is designed to directly quantify micro RNAs in circulation at sub-fM to nM concentration range. The talk will mainly focus on the electrochemical and optical properties of thiolate stabilized gold clusters. These nanomolecules are unique in that molecular composition and atomic bond structures can be elucidated. The information enables possible structure-functions correlations for better catalysis, charge and energy storage, sensing and biomedical applications. Time dependent ion transport phenomena emerging at nanometer scale interfaces will be briefly addressed.

    报告人简介:

    Dr. Gangli Wang got his B.S. and M.S. degrees from Peking University in 1996 and 1999 respectively. He received his Ph. D. degree under the direction of Dr. Royce Murray at the University of North Carolina at Chapel Hill in 2004. After a postdoc training with Dr. Henry White at the University of Utah, Gangli started his independent career at Chemistry at GSU. He is currently an Associate Professor with Tenure. The research in Wang’s group has been supported by NSF, DOE and university funding. The main thrust of our research is nanoelectrochemistry. We thrive to gain fundamental insights for better biomedical and energy applications. Representative publications include:

    1. Wang, T.; Viennois, E., Merlin, D.; and Wang, G. One-step Lable-free Detection of miRNAs on Microelectrode Sensors with Enzymeless Electrochemical Signal Amplification Anal. Chem., 2015, 87 (16), 8173–8180

    2. Wang, D.; Padelford, J.; Ahuja, T.; and Wang. G.* Discrete Absorption Bands of Thiolate Au130 Clusters Resolved by Spectroelectrochemistry ACS Nano, 2015, 9 (8), 8344–8351

    3. Li, Y.; Wang, D.; Kvetny, M.; Brown, W. Liu, J.; Wang, G.* History-dependent Power Generation in Dynamic Ion Transport through Conical Nanopipettes as Solid-state Ion pumps Chem. Sci., 2015, 6, 588-595.

    4. Wang, D.; Kvetny, M.; Liu, J.; Brown, W.; Li, Y.; Wang, G.* Physical Origin of Dynamic Ion Transport Features through Single Conical Nanopores at Different Bias Frequencies Chem. Sci., 2014, 5, 1827-1832.

    5. Tang, Z.; Robinson, D. A.; Bokossa, N.; Xu, B.; Wang, S.; Wang, G.* Mixed Dithiolate Durene-DT and Monothiol Phenylethanethiolate Protected Au130 Nanoparticles with Discrete Core an Core-Ligand Energy States J. Am. Chem. Soc. 2011, 133, 16037-16044.

    地址:湖北省武汉市洪山区珞喻路1037号 华中科技大学动力楼301室  政编码:430074     
    电话:18062636661  传真:
    027-87540724  邮箱:gfeng@hust.edu.cn 

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