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美国麻省理工戚继发博士来材料学院学术讲座

发布日期:2015-09-22 作者:admin 编辑: 点击:

 

题目: Biological templates synthesized nanomaterials for applications of energy conversion and storage
报告人:Dr. Jifa Qi (戚继发)
Department of Materials Science & Engineering (DMSE), Department of Biological Engineering (BE), The David Koch Institute for Integrative Cancer Research, Massachusetts Institute of Technology (MIT)
 
报告时间: 2015924(星期四),   15:00-16:30
报告地点:南岭校区机械材料馆 209会议室
主办单位:英国正版365官方网站材料学院汽车材料教育部重点实验室
 
报告内容:
Biological systems often possess highly specific recognition capabilities and can rationally control over inorganic material nucleation, phase stabilization, assembly, and pattern formation. The talk will focus on using M13 virus as a versatile, genetic controllable template for generating a complex, highly ordered nanowires, there assembly, and the applications in Li-batteries and photovoltaics: localized surface plasmon enhanced solar cells.
 
报告人简介:
Dr. Jifa Qi is a research scientist of Department of Materials Science & Engineering (DMSE), Department of Biological Engineering (BE), The David Koch Institute for Integrative Cancer Research, Massachusetts Institute of Technology (MIT), Cambridge, USA. He received his B.S. degree from Jilin University in the major of physics, M.S. degree from Changchun Institute of Physics, Chinese Academy of Science and Ph.D. degree in solid state physics from University of Tsukuba, Japan. He is now a member of Japan Society of Physics, Japan Society of Applied Physics, the Electrochemical Society and also the Materials Research Society. His current research interests include:
1. Formations of nanoscale materials, bio-composite materials, organic-inorganic interfaces and self-assembly and studies of their physical properties by laser spectroscopy.
2. Electro-photon conversion of nanomaterials (electroluminescence, photovoltaic devices and biosensors).
3. Energy storage materials (Li, Na ion batteries, Li-O2 battery and supercapacitors).
4. Nanoparticles as imaging probe in cancer early diagnosis and treatment laser spectroscopy of nano-sized systems.

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