English|NanjingTech|Contact
专题讲座
科研信息
院务公告
学生事务
专题讲座
学术会议
IAM星火大讲堂

当前位置: 网站首页 通知公告 专题讲座 正文
美国杜克大学刘杰教授学术报告的通知
添加时间:2015/08/05 发布: 管理员
二维码

扫描二维码,在手机中查看。

报告时间:8月7日上午10:00
报告地点:科技创新大楼C501室
报告题目:Carbon Nanomaterials in Metal Oxide Based Electrodes for Supercapacitors

Abstract

The energy need in the world is predicted to double or triple by the end of the century due to economic growth and population increase. In addition, effect of fossil fuels on the environment is becoming a major problem for the world. Hence, there are strong need to develop clean and renewable energies based on wind and solar energy. Additionally due to the intermittent and geographically limited nature of the energy sources the need for efficient electrical energy storage (EES) systems is becoming a key challenge in the field. Here we discuss the importance of carbon nanomaterials in energy storage systems, specifically the importance of carbon nanomaterials in improving the properties of metal oxide based supercapacitor (SC) electrodes.

Several recent results from our group will be discussed in the talk, the first is the use of both carbon nanotubes and graphene in the formation of self-standing and highly conductive materials as electrodes for supercapacitors. Using this approach, we were able to fabricate supercapacitors with energy density close to that of lead-acid battery but with a charging speed 100 times higher. Additionally, we studied the effect chemical doping on the properties of metal hydroxide based SC electrodes. The results show that the effect from chemical doping and carbon nanomaterials can be added together to bring the performance of the materials to a much higher level. In summary, carbon nanomaterials, if used in a well-designed manner, can significantly improve the properties of SC electrodes, especially those made of metal oxides and hydroxides. Different carbon materials have very different functions and properties; their roles in the SC electrodes need to be carefully designed and assembles. Simply mixing different materials together is not a method that will yield optimized and well controlled electrodes.

Biography

Jie Liu is currently the George B Geller Professor of Chemistry at Duke University. He earned a B.S. in Chemistry from Shandong University in 1987 and a Ph.D. in Chemistry from Harvard University in 1996. His research interests include synthesis and chemical functionalization of nanomaterials, light emission from doped metal oxide nanostructures, nanoelectronic devices, scanning probe microscopy and carbon nanomaterials. As a faculty member, Professor Liu has received the DuPont Young Professor Award, Outstanding Oversea Young Investigator Award from NSF-China, Ralph E. Powe Junior Faculty Enhancement Award from Oak Ridge Associated Universities, Bass Professorship from Duke University for excellence in teaching and research and elected as AAAs fellow, RSC Fellow and APS Fellow in 2013.


Copyright © 2017-2019 万博体育bet 先进材料研究院 All rights reserved.

官方微信
地址:南京市新模范马路5号138信箱总共访问:[旧版回顾]
电话: 025-83587982
Baidu