Nanoscale tin-based intermetallic electrodes encapsulated in microporous copper substrate as the negative electrode with a high rate capacity and a long cycleability for lithium-ion batteries

Authors :: Lauryn Jamison
Fu-Sheng Ke
Ling Huang
Lianjie Xue
Jun-Tao Li
Xiao-Dong Zhou
Guo-Zhen Wei
Shi-Gang Sun
Source :: Nano Energy. 2:595-603
Publication Year :: 2013
Publisher :: Elsevier BV, 2013.
Abstract: NSFC [2093110426, 21003102, 21021002, 20833005]; "973" program [209CB220102]; "863" program [2011AA11A254]; Solid State and Materials Chemistry Program of the Division of Materials Research at the U.S. National Science Foundation

Subjects :: Solid-state chemistry
Materials science
Silicon
Renewable Energy, Sustainability and the Environment
Metallurgy
Intermetallic
chemistry.chemical_element
Microporous material
Anode
chemistry
Chemical engineering
Electrode
General Materials Science
Lithium
Electrical and Electronic Engineering
Tin

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