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Mechanistic Studies of Electrochemical Interfaces for Rational Design of Ener..._上海硅酸盐研究所

上海硅酸盐研究所 免费考研网/2018-05-05

  中国科学院能量转换材料重点实验室

  学术报告

  Mechanistic Studies of Electrochemical Interfaces for Rational Design of Energy Materials

  Dr. Zhenxing Feng (冯振兴)

  School of Chemical, Biological, and Environmental Engineering, Oregon State University,USA

  时间:8月9日, 上午10:00

  地点:4号楼14楼第一会议室

  联系人:温兆银 1704

  Abstract:

  For electrochemical systems such as batteries and fuel cells, the gas/solid and liquid/solid interfaces are critical parts where many important reactions take place. Revealing the mechanism of these interfacial processes will help design efficient energy conversion and storage devices. In this talk, I will discuss how we study both model systems and real materials for fundamental understanding and real applications. The first example will be magnesium (Mg) battery, which can potentially replace current state-of-the-art lithium-ion battery in electric vehicles. Using thin film model systems, we have explored the electrochemical performance of Mg spinel oxides as new battery cathodes, as well as the intercalation mechanism of Mg2+ at the electrode/electrolyte interfaces. In the second example, we have studied a series of spinel ferrites to explore their pseudocapacitive as well as electrochemical catalytic performance for oxygen reduction reaction (ORR) and oxygen evolution reaction (OER). By combining electrochemical tests and in situ X-ray absorption spectroscopy measurements, we have figured out the property descriptors, and provide the design principles of spinel ferrites as supercapacitors and electrocatalysts. These design rules are applied to successfully predict and test other transition metal spinels’ electrochemical properties.

  Bio:

  Zhenxing Feng graduated from Peking University in China with BS in Physics. He obtained MS in Physics from McGill University in Montreal, Canada, and Ph.D. in Materials Science and Engineering of Northwestern University, USA. Then he spent two years at Electrochemical Energy Lab of Mechanical Engineering at MIT for postdoctoral trainings. After working in Joint Center for Energy Storage Research (JCESR) of Argonne National Lab for 3 years in advanced battery research, he moved to Oregon State University as an assistant professor. He is interested in finding design principles of various materials for energy harvesting, conversion and storage applications.

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