凯发

Speaker-Linjie Zhi

Linjie Zhi
National Center for Nanoscience and Technology, China
Linjie Zhi is a full professor in the National Center for Nanoscience and Technology. He received B.S. degree in Chemistry and M.S. degree in Organic Chemistry from Shanxi Normal University and Dalian University of Technology in 1987 and 1994, respectively. He received his PhD in 2000 at the Institute of Coal Chemistry, Chinese Academy of Sciences. He then worked in the Institute of Chemistry, Chinese Academy of Sciences, for two years as a postdoc. Since January 2003 he had worked with Prof. Klaus Müllen at the Max-Planck Institute for Polymer Research for two years before assuming the position of project leader until the end of 2007. After that, he was appointed a full professor in the National Center for Nanoscience and Technology, and moved back to China in early 2008. 

His research interests focus on graphene-based carbon-rich nanomaterials and their application in energy-related areas. Particularly, he is interested in the preparation and functionalization of well-defined graphene based nanomaterials and their application in energy storage, energy conversion, and catalysis. He has published over 100 papers in which ca. 40 papers are published in high quality journals with an IF over 9, attracting a total citation of over 5500 times and a H-index of 38.
Title:Funtional Graphene-based Nanomaterials and Their Application in Electrochemical Catalysis
SymposiumFuel Cell
Starting Time
Ending Time
Abstract

Graphene-based nanomaterials have attracted great attention for various applications including energy storage and energy conversion. Particularly, due to their excellent conductivity, high surface area, active surface function, graphene-based hybrid materials are believed to be highly promising as electrode materials for fuel cell applications. To improve the electrochemical catalytic activity, well-defined chemical functionalization and continuous conductive networks are both critically important for developing high performance electrode materials for fuel cell applications. Chemical approaches via chemical fuunctionalization of graphene-based structures and chemical hybridization of various catalytic active species into graphene are quite interesting and efficient for the fabrication of versatile graphene-based hybrids for fuel cell applications.

References:
[1] Qi Song, Yuying Jia, Bin Luo, Haiyong He, Linjie Zhi*, Small, 2013, 9, 2460-2465.
[2] Hong Hao, Xianglong Li, Linjie Zhi*, Adv. Mater. 2013, 25, 3899-3904.
[3] Bin Luo, Bin Wang, Minghui Liang, Jing Ning, Xianglong Li, Linjie Zhi*, Adv. Mater., 2012, 24(11), 1405-1409.
[4] Yan Fang , Bin Luo , Yuying Jia , Xianglong Li , Bin Wang , Qi Song , Feiyu Kang,* and Linjie Zhi*, Adv. Mater., 2012, 24, 6348-6355.
[5] Long Hao, Bin Luo, Xianglong Li, Meihua Jin, Yan Fang, Zhihong Tang, Yuying Jia, Minghui Liang, Arne Thomas, Junhe Yang, and Linjie Zhi*, Energy Environ. Sci., 2012, 5, 9747-9751.

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Abstract: Minyang Lu

Sponsor: Wenyang Yang

Media: Liping Wang

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