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Speaker-Shuangyi Liu

Shuangyi Liu
Chongqing Institute of Green and Intelligent Technology, Chinese Academy of Sciences
Liu Shuangyi, as a full professor,joined Chongqing Institute of Green and Intelligent Technology, Chinese Academy of Scienceswith a talent plan of the program ofHundreds talents of Chinese Academy of Sciencesat 2015. He received his Ph. D. (2010) at Department of Mechanical engineering of the University of Hong Kong with studying fabrication, characterization and simulation of inorganic nanomaterials. After one year postdoctoral work at the University of Hong Kong, he joined Energy Institute of City University of New York with studying embedded capacitor, composite energy materials and low cost scaled up fabrication methods of oxide nanocrystals. He currently focuses on synthesis, characterization and simulation of low dimensional nanomaterials and their applications on energydevices such as dielectric capacitors, supercapacitors and energy self-harvest system.



Title:Nitrogen doped Graphene Bridged Carbon Nanotubes frameworks for electrochemical energy storage
SymposiumB15 Supercapacitors
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Abstract

Graphene-based supercapacitors can achieve high power density due to its high conductivity and large surface area. The critical limitations of graphene electrodes are the low electrochemical double layers capacitance and limited ion accessible active surface due to restacking. Herein, hierarchical hollow frameworks composed of interconnected carbon nanotubes bridged by nitrogen-doped graphene are designed and fabricated by a framework-preserved thermal transformation from metal-organic frameworks. The performance of hierarchical frameworks as supercapacitor electrode demonstrates that such composite can produce higher capacitance than those of nitrogen-doped graphene or carbon nanotubes. The remarkable enhanced electrochemical performance is mainly attributed to the synergistic effect of the hierarchical frameworks resulted more accessible active surface and higher efficient conducting paths, and pseudocapacitance from nitrogen doping. Moreover, this approach of controlling synthesis of hierarchical nitrogen-doped graphene-bridged carbon nanotubes can be scaled up to the industrial level.

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E-mail: meeting@c-gia.org

Abstract: Minyang Lu

Sponsor: Wenyang Yang

Media: Liping Wang

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