The Evolution in Electrochemical Performance of Honeycomb-Like Ni(OH)(2) Derived from MOF Template with Morphology as a High-Performance Electrode Material for Supercapacitors

Ni(OH)(2) derived from an MOF template was synthesized as an electrode material for supercapacitors. The electrochemical performance of the electrode was adjusted by effectively regulating the morphology of Ni(OH)(2). The evolution of electrochemical performance of the electrode with morphology of N...

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Autores principales: Li, Xiao, Li, Jun, Zhang, Ying, Zhao, Peng, Lei, Ruyan, Yuan, Baige, Xia, Manman
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7663398/
https://www.ncbi.nlm.nih.gov/pubmed/33143103
http://dx.doi.org/10.3390/ma13214870
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author Li, Xiao
Li, Jun
Zhang, Ying
Zhao, Peng
Lei, Ruyan
Yuan, Baige
Xia, Manman
author_facet Li, Xiao
Li, Jun
Zhang, Ying
Zhao, Peng
Lei, Ruyan
Yuan, Baige
Xia, Manman
author_sort Li, Xiao
collection PubMed
description Ni(OH)(2) derived from an MOF template was synthesized as an electrode material for supercapacitors. The electrochemical performance of the electrode was adjusted by effectively regulating the morphology of Ni(OH)(2). The evolution of electrochemical performance of the electrode with morphology of Ni(OH)(2) was highlighted in detail, based on which honeycomb-like Ni(OH)(2) was successfully synthesized, and endowed the electrode with outstanding electrochemical performance. For the three-electrode testing system, honeycomb-like Ni(OH)(2) exhibited a very high specific capacitance (1865 F·g(−1) at 1 A·g(−1), 1550 F·g(−1) at 5 mV·s(−1)). Moreover, it also presented an excellent rate capability and cycling stability, due to 59.46 % of the initial value (1 A·g(−1)) being retained at 10 A·g(−1), and 172% of initial value (first circle at 50 mV·s(−1)) being retained after 20,000 cycles. With respect to the assembled hybrid supercapacitor, honeycomb-like Ni(OH)(2) also displayed superior electrochemical performance, with a high energy density (83.9 Wh·kg(−1) at a power density of 374.8 W·kg(−1)). The outstanding electrochemical performance of Ni(OH)(2) should be attributed to its unique honeycomb-like structure, with a very high specific surface area, which greatly accelerates the transformation and diffusion of active ions.
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spelling pubmed-76633982020-11-14 The Evolution in Electrochemical Performance of Honeycomb-Like Ni(OH)(2) Derived from MOF Template with Morphology as a High-Performance Electrode Material for Supercapacitors Li, Xiao Li, Jun Zhang, Ying Zhao, Peng Lei, Ruyan Yuan, Baige Xia, Manman Materials (Basel) Article Ni(OH)(2) derived from an MOF template was synthesized as an electrode material for supercapacitors. The electrochemical performance of the electrode was adjusted by effectively regulating the morphology of Ni(OH)(2). The evolution of electrochemical performance of the electrode with morphology of Ni(OH)(2) was highlighted in detail, based on which honeycomb-like Ni(OH)(2) was successfully synthesized, and endowed the electrode with outstanding electrochemical performance. For the three-electrode testing system, honeycomb-like Ni(OH)(2) exhibited a very high specific capacitance (1865 F·g(−1) at 1 A·g(−1), 1550 F·g(−1) at 5 mV·s(−1)). Moreover, it also presented an excellent rate capability and cycling stability, due to 59.46 % of the initial value (1 A·g(−1)) being retained at 10 A·g(−1), and 172% of initial value (first circle at 50 mV·s(−1)) being retained after 20,000 cycles. With respect to the assembled hybrid supercapacitor, honeycomb-like Ni(OH)(2) also displayed superior electrochemical performance, with a high energy density (83.9 Wh·kg(−1) at a power density of 374.8 W·kg(−1)). The outstanding electrochemical performance of Ni(OH)(2) should be attributed to its unique honeycomb-like structure, with a very high specific surface area, which greatly accelerates the transformation and diffusion of active ions. MDPI 2020-10-30 /pmc/articles/PMC7663398/ /pubmed/33143103 http://dx.doi.org/10.3390/ma13214870 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Li, Xiao
Li, Jun
Zhang, Ying
Zhao, Peng
Lei, Ruyan
Yuan, Baige
Xia, Manman
The Evolution in Electrochemical Performance of Honeycomb-Like Ni(OH)(2) Derived from MOF Template with Morphology as a High-Performance Electrode Material for Supercapacitors
title The Evolution in Electrochemical Performance of Honeycomb-Like Ni(OH)(2) Derived from MOF Template with Morphology as a High-Performance Electrode Material for Supercapacitors
title_full The Evolution in Electrochemical Performance of Honeycomb-Like Ni(OH)(2) Derived from MOF Template with Morphology as a High-Performance Electrode Material for Supercapacitors
title_fullStr The Evolution in Electrochemical Performance of Honeycomb-Like Ni(OH)(2) Derived from MOF Template with Morphology as a High-Performance Electrode Material for Supercapacitors
title_full_unstemmed The Evolution in Electrochemical Performance of Honeycomb-Like Ni(OH)(2) Derived from MOF Template with Morphology as a High-Performance Electrode Material for Supercapacitors
title_short The Evolution in Electrochemical Performance of Honeycomb-Like Ni(OH)(2) Derived from MOF Template with Morphology as a High-Performance Electrode Material for Supercapacitors
title_sort evolution in electrochemical performance of honeycomb-like ni(oh)(2) derived from mof template with morphology as a high-performance electrode material for supercapacitors
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7663398/
https://www.ncbi.nlm.nih.gov/pubmed/33143103
http://dx.doi.org/10.3390/ma13214870
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