High-performance supercapacitor material based on Ni(OH)2 nanowire-MnO2 nanoflakes core–shell nanostructures

High-performance supercapacitor material based on Ni(OH)2 nanowire-MnO2 nanoflakes core–shell nanostructures

Ni(OH)2/MnO2 core–shell nanowires with a nanoflake surface have been designed and synthesized, and can be applied not only in neutral electrolytes (355 F g−1, 70.4 wt% MnO2) but are also appropriate for alkaline electrolytes (487.4 F g−1, 35.5 wt% MnO2), with high cycling stability due to the synerg...

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Main Authors: Jiang, Hao, Li, Chunzhong, Sun, Ting, Ma, Jan
Other Authors: School of Materials Science & Engineering
Format: Article
Language:English
Published: 2013
Online Access:https://hdl.handle.net/10356/101107
http://hdl.handle.net/10220/11067
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1011072020-06-01T10:13:41Z High-performance supercapacitor material based on Ni(OH)2 nanowire-MnO2 nanoflakes core–shell nanostructures Jiang, Hao Li, Chunzhong Sun, Ting Ma, Jan School of Materials Science & Engineering Ni(OH)2/MnO2 core–shell nanowires with a nanoflake surface have been designed and synthesized, and can be applied not only in neutral electrolytes (355 F g−1, 70.4 wt% MnO2) but are also appropriate for alkaline electrolytes (487.4 F g−1, 35.5 wt% MnO2), with high cycling stability due to the synergistic effect between the core and shell. 2013-07-09T06:56:01Z 2019-12-06T20:33:28Z 2013-07-09T06:56:01Z 2019-12-06T20:33:28Z 2012 2012 Journal Article Jiang, H., Li, C., Sun, T., Ma, J. (2012). High-performance supercapacitor material based on Ni(OH)2 nanowire-MnO2 nanoflakes core–shell nanostructures. Chemical Communications, 48(20), 2606-2608. https://hdl.handle.net/10356/101107 http://hdl.handle.net/10220/11067 10.1039/c2cc18079k en Chemical communications © 2012 The Royal Society of Chemistry.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
description Ni(OH)2/MnO2 core–shell nanowires with a nanoflake surface have been designed and synthesized, and can be applied not only in neutral electrolytes (355 F g−1, 70.4 wt% MnO2) but are also appropriate for alkaline electrolytes (487.4 F g−1, 35.5 wt% MnO2), with high cycling stability due to the synergistic effect between the core and shell.
author2 School of Materials Science & Engineering
author_facet School of Materials Science & Engineering
Jiang, Hao
Li, Chunzhong
Sun, Ting
Ma, Jan
format Article
author Jiang, Hao
Li, Chunzhong
Sun, Ting
Ma, Jan
spellingShingle Jiang, Hao
Li, Chunzhong
Sun, Ting
Ma, Jan
High-performance supercapacitor material based on Ni(OH)2 nanowire-MnO2 nanoflakes core–shell nanostructures
author_sort Jiang, Hao
title High-performance supercapacitor material based on Ni(OH)2 nanowire-MnO2 nanoflakes core–shell nanostructures
title_short High-performance supercapacitor material based on Ni(OH)2 nanowire-MnO2 nanoflakes core–shell nanostructures
title_full High-performance supercapacitor material based on Ni(OH)2 nanowire-MnO2 nanoflakes core–shell nanostructures
title_fullStr High-performance supercapacitor material based on Ni(OH)2 nanowire-MnO2 nanoflakes core–shell nanostructures
title_full_unstemmed High-performance supercapacitor material based on Ni(OH)2 nanowire-MnO2 nanoflakes core–shell nanostructures
title_sort high-performance supercapacitor material based on ni(oh)2 nanowire-mno2 nanoflakes core–shell nanostructures
publishDate 2013
url https://hdl.handle.net/10356/101107
http://hdl.handle.net/10220/11067
_version_ 1681058770402148352

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