Role of Co in the Electrocatalytic Activity of Monolayer Ternary NiFeCo-Double Hydroxide Nanosheets for Oxygen Evolution Reaction

Role of Co in the Electrocatalytic Activity of Monolayer Ternary NiFeCo-Double Hydroxide Nanosheets for Oxygen Evolution Reaction

Monolayer nanosheets have gained significant attention as functional materials and also in photo/electrocatalysis due to their unique physical/chemical properties, abundance of highly exposed coordination sites, edges, and corner sites, motivating the pursuit of highly active monolayer nanosheets. N...

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Main Authors: Ye Li, Dan Zhao, Yue Shi, Zhicheng Sun, Ruping Liu
Format: Article
Language:English
Published: MDPI AG 2021-01-01
Series:Materials
Subjects:
monolayer nanosheets
defect
water splitting
oxygen evolution
Online Access:https://www.mdpi.com/1996-1944/14/1/207
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spelling doaj-9800abb1ec624c2ea0314e1ad14814fc2021-01-05T00:02:45ZengMDPI AGMaterials1996-19442021-01-011420720710.3390/ma14010207Role of Co in the Electrocatalytic Activity of Monolayer Ternary NiFeCo-Double Hydroxide Nanosheets for Oxygen Evolution ReactionYe Li0Dan Zhao1Yue Shi2Zhicheng Sun3Ruping Liu4Beijing Institute of Graphic Communication, School of New Media, Beijing 102600, ChinaBeijing Institute of Graphic Communication, School of Printing and Packaging Engineering, Beijing 102600, ChinaBeijing Institute of Graphic Communication, School of Printing and Packaging Engineering, Beijing 102600, ChinaBeijing Institute of Graphic Communication, School of Printing and Packaging Engineering, Beijing 102600, ChinaBeijing Institute of Graphic Communication, School of Printing and Packaging Engineering, Beijing 102600, ChinaMonolayer nanosheets have gained significant attention as functional materials and also in photo/electrocatalysis due to their unique physical/chemical properties, abundance of highly exposed coordination sites, edges, and corner sites, motivating the pursuit of highly active monolayer nanosheets. NiFe-based layered double hydroxide (NiFe-LDH) nanosheets have been regarded as the most efficient electrocatalysis for oxygen evolution. However, the limited catalytic active site and the stacking layer limited the performance. Therefore, by introducing highly electroactive Co ions into monolayer NiFe-LDH, the obtained ternary NiFeCo-LDH monolayer structure possessed an increased concentration of defect (oxygen and metal vacancies), providing enough unsaturated coordination sites, benefitting the electrocatalytic water oxidation, as also explained by the density functional theory (DFT). This work reported an efficient strategy for the synthesis of ternary monolayer LDH in the application of energy conversion and storage.https://www.mdpi.com/1996-1944/14/1/207monolayer nanosheetsdefectwater splittingoxygen evolution
collection DOAJ
language English
format Article
sources DOAJ
author Ye Li
Dan Zhao
Yue Shi
Zhicheng Sun
Ruping Liu
spellingShingle Ye Li
Dan Zhao
Yue Shi
Zhicheng Sun
Ruping Liu
Role of Co in the Electrocatalytic Activity of Monolayer Ternary NiFeCo-Double Hydroxide Nanosheets for Oxygen Evolution Reaction
Materials
monolayer nanosheets
defect
water splitting
oxygen evolution
author_facet Ye Li
Dan Zhao
Yue Shi
Zhicheng Sun
Ruping Liu
author_sort Ye Li
title Role of Co in the Electrocatalytic Activity of Monolayer Ternary NiFeCo-Double Hydroxide Nanosheets for Oxygen Evolution Reaction
title_short Role of Co in the Electrocatalytic Activity of Monolayer Ternary NiFeCo-Double Hydroxide Nanosheets for Oxygen Evolution Reaction
title_full Role of Co in the Electrocatalytic Activity of Monolayer Ternary NiFeCo-Double Hydroxide Nanosheets for Oxygen Evolution Reaction
title_fullStr Role of Co in the Electrocatalytic Activity of Monolayer Ternary NiFeCo-Double Hydroxide Nanosheets for Oxygen Evolution Reaction
title_full_unstemmed Role of Co in the Electrocatalytic Activity of Monolayer Ternary NiFeCo-Double Hydroxide Nanosheets for Oxygen Evolution Reaction
title_sort role of co in the electrocatalytic activity of monolayer ternary nifeco-double hydroxide nanosheets for oxygen evolution reaction
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2021-01-01
description Monolayer nanosheets have gained significant attention as functional materials and also in photo/electrocatalysis due to their unique physical/chemical properties, abundance of highly exposed coordination sites, edges, and corner sites, motivating the pursuit of highly active monolayer nanosheets. NiFe-based layered double hydroxide (NiFe-LDH) nanosheets have been regarded as the most efficient electrocatalysis for oxygen evolution. However, the limited catalytic active site and the stacking layer limited the performance. Therefore, by introducing highly electroactive Co ions into monolayer NiFe-LDH, the obtained ternary NiFeCo-LDH monolayer structure possessed an increased concentration of defect (oxygen and metal vacancies), providing enough unsaturated coordination sites, benefitting the electrocatalytic water oxidation, as also explained by the density functional theory (DFT). This work reported an efficient strategy for the synthesis of ternary monolayer LDH in the application of energy conversion and storage.
topic monolayer nanosheets
defect
water splitting
oxygen evolution
url https://www.mdpi.com/1996-1944/14/1/207
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AT danzhao roleofcointheelectrocatalyticactivityofmonolayerternarynifecodoublehydroxidenanosheetsforoxygenevolutionreaction
AT yueshi roleofcointheelectrocatalyticactivityofmonolayerternarynifecodoublehydroxidenanosheetsforoxygenevolutionreaction
AT zhichengsun roleofcointheelectrocatalyticactivityofmonolayerternarynifecodoublehydroxidenanosheetsforoxygenevolutionreaction
AT rupingliu roleofcointheelectrocatalyticactivityofmonolayerternarynifecodoublehydroxidenanosheetsforoxygenevolutionreaction
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