报 告 人:Jwa-Min Nam教授 韩国首尔大学
报告题目: Synthesis, Optics and Biomedical Applications of Plasmonic Nanogap Particles
报告时间: 2016年4月12日16:00--17:30
报告地点: 过程大厦__308__会议室
报告摘要:
Designing, synthesizing and controlling plasmonic nanostructures with high precision and high yield are of paramount importance in optics, nanoscience, chemistry, materials science, energy and nanobiotechnology. In particular, synthesizing and utilizing plasmonic nanostructures with ultrastrong, controllable and quantifiable signals is key to nanoantenna, plasmonics-driven chemical reaction, various chemical and biological detection and biological imaging applications. Here, I will introduce newly emerging DNA-engineered plasmonically coupled and enhanced nanoprobes with strong, controllable and quantifiable signals including nanogap-enhanced Raman scattering, show their potentials in addressing some of important challenges in science, and discuss how these new materials can lead us to new breakthroughs in various technologies including biomedical technologies.
Jwa-Min Nam received his Ph.D. degree in chemistry from Northwestern University and worked as a postdoctoral fellow at the University of California, Berkeley. He is currently a Full Professor in Chemistry and a Director of Center for Enabling Nanotechnologies for Medicine, Seoul National University. He was a visiting professor at National University of Singapore (2013) and Institute of Physics, Chinese Academy of Sciences (2014). He serves as an Executive Director of Korean Society for Nanomedicine, a Vice-Chair of International Cooperation, Korean Chemical Society and an Editorial Board Member of ChemNanoMat (Wiley-VCH). He received the Chinese Academy of Sciences Fellowship for International Scientists, the Presidential Young Scientist Award from the President of Korea, Frontier Scientist Fellowship from the Korean Academy of Science and Technology, the Young Inorganic Chemist Award from the Korean Chemical Society and the Victor K. LaMer award from the American Chemical Society. His major interests include plasmonic nanostructures, nanoprobes for biomedical applications, nanostructure-tethered lipid bilayers and cell-nanostructure interfaces.
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