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南京工业大学邵宗平教授做客第376期化苑讲坛

作者:  发布:2018-10-19 16:37:55  点击量:

报告题目:Rational design of perovskite materials for applications in energy storage/conversion and environmental treatment

人:邵宗平教授

报告时间:20181022周一上午10:00

报告地点:化学楼二楼一号会议室   

人:王得丽教授

报告人简介:

Dr. Shao received his PhD from Dalian Institute of Chemical Physics, Chinese Academy of Sciences in 2000, after that he has been a visiting scholar at the Institut de Researches Sur La Catalyse, CNRS, France and a postdoc at Materials Science, California Institute of Technology, USA from March 2002 till June 2005. In July 2005, he joined Nanjing Tech University where he was promoted to professor. Currently, he is joint-appointed by Nanjing Tech University and Curtin University. His research interests include solid oxide fuel cells, lithium-ion batteries, supercapacitors, oxygen permeable membranes and polymer-electrolyte membrane fuel cells, photocatalysis and solar cells. He has published around 500 international journal papers with a total citation of >22500 (Google Scholar) with an H-index of 69 (Google Scholar). He was selected by Thomson Reuters as one of the highly cited researchers in the engineering section (2014 and 2017) and in materials section (2018). He was also awarded as the highest cited Chinese researcher in the energy section by Elsevier China (2015 and 2016 and 2017).

报告摘要:

Perovskite is a large category of functional materials that have defined crystalline structure with more than 90% of elements able to doping into the perovskite structure, resulting in a wide variety of properties. Here, we proposed a strategy for the developing of perovskite oxides with tailored properties for different functional applications in energy storage and conversion, such as solid oxide fuel cells, and anion-intercalation-type supercapacitors, and water splitting for hydrogen production. We further proposed the application of perovskite oxides as electrocatalysts for the redox of I- to I3-, allowing the enhancement of PCE in dye-sensitized solar cells by a factor of 25%. Our most recent achievement in the application of perovskite oxides in advanced oxidation for wastewater remediation is also referred.

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