Boosting HER Performance of Pt-Based Catalysts Immobilized on Functionalized Vulcan Carbon by Atomic Layer Deposition

Boosting HER Performance of Pt-Based Catalysts Immobilized on Functionalized Vulcan Carbon by Atomic Layer Deposition

Development of cost-effective Pt-based electrocatalysts is of scientific and industrial importance for hydrogen evolution from water splitting. In this work, cost-efficient Pt-based catalysts, immobilized on functionalized Vulcan Carbon (VC) from hydrothermal treatment of Ru precursor and ethylene g...

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Main Authors: Wei Luo, Jie Gan, Zikun Huang, Wenyao Chen, Gang Qian, Xinggui Zhou, Xuezhi Duan
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-10-01
Series:Frontiers in Materials
Subjects:
hydrogen evolution reaction
Pt-based catalysts
functionalized Vulcan Carbon
atomic layer deposition
cost-effective
Online Access:https://www.frontiersin.org/article/10.3389/fmats.2019.00251/full
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spelling doaj-a367cb57a9ef48b7878f2d242951aaf22020-11-25T01:25:35ZengFrontiers Media S.A.Frontiers in Materials2296-80162019-10-01610.3389/fmats.2019.00251494009Boosting HER Performance of Pt-Based Catalysts Immobilized on Functionalized Vulcan Carbon by Atomic Layer DepositionWei LuoJie GanZikun HuangWenyao ChenGang QianXinggui ZhouXuezhi DuanDevelopment of cost-effective Pt-based electrocatalysts is of scientific and industrial importance for hydrogen evolution from water splitting. In this work, cost-efficient Pt-based catalysts, immobilized on functionalized Vulcan Carbon (VC) from hydrothermal treatment of Ru precursor and ethylene glycol solution, for hydrogen evolution reaction (HER) are elaborately constructed via an elegant and controllable atomic layer deposition (ALD) technique. More carboxyl groups on the functionalized VC are suggested as the anchor sites for Pt immobilization, which gives rise to the more Pt active sites, desirable Pt electronic properties and stronger Pt-support interaction. The resultant 7.1 wt% Pt-based composite catalyst exhibits remarkably boosted HER activity and stability than the commercial 20% Pt/C catalyst. These insights could open up a new avenue for fabrication of cost-effective Pt/C HER catalysts based on ALD technique.https://www.frontiersin.org/article/10.3389/fmats.2019.00251/fullhydrogen evolution reactionPt-based catalystsfunctionalized Vulcan Carbonatomic layer depositioncost-effective
collection DOAJ
language English
format Article
sources DOAJ
author Wei Luo
Jie Gan
Zikun Huang
Wenyao Chen
Gang Qian
Xinggui Zhou
Xuezhi Duan
spellingShingle Wei Luo
Jie Gan
Zikun Huang
Wenyao Chen
Gang Qian
Xinggui Zhou
Xuezhi Duan
Boosting HER Performance of Pt-Based Catalysts Immobilized on Functionalized Vulcan Carbon by Atomic Layer Deposition
Frontiers in Materials
hydrogen evolution reaction
Pt-based catalysts
functionalized Vulcan Carbon
atomic layer deposition
cost-effective
author_facet Wei Luo
Jie Gan
Zikun Huang
Wenyao Chen
Gang Qian
Xinggui Zhou
Xuezhi Duan
author_sort Wei Luo
title Boosting HER Performance of Pt-Based Catalysts Immobilized on Functionalized Vulcan Carbon by Atomic Layer Deposition
title_short Boosting HER Performance of Pt-Based Catalysts Immobilized on Functionalized Vulcan Carbon by Atomic Layer Deposition
title_full Boosting HER Performance of Pt-Based Catalysts Immobilized on Functionalized Vulcan Carbon by Atomic Layer Deposition
title_fullStr Boosting HER Performance of Pt-Based Catalysts Immobilized on Functionalized Vulcan Carbon by Atomic Layer Deposition
title_full_unstemmed Boosting HER Performance of Pt-Based Catalysts Immobilized on Functionalized Vulcan Carbon by Atomic Layer Deposition
title_sort boosting her performance of pt-based catalysts immobilized on functionalized vulcan carbon by atomic layer deposition
publisher Frontiers Media S.A.
series Frontiers in Materials
issn 2296-8016
publishDate 2019-10-01
description Development of cost-effective Pt-based electrocatalysts is of scientific and industrial importance for hydrogen evolution from water splitting. In this work, cost-efficient Pt-based catalysts, immobilized on functionalized Vulcan Carbon (VC) from hydrothermal treatment of Ru precursor and ethylene glycol solution, for hydrogen evolution reaction (HER) are elaborately constructed via an elegant and controllable atomic layer deposition (ALD) technique. More carboxyl groups on the functionalized VC are suggested as the anchor sites for Pt immobilization, which gives rise to the more Pt active sites, desirable Pt electronic properties and stronger Pt-support interaction. The resultant 7.1 wt% Pt-based composite catalyst exhibits remarkably boosted HER activity and stability than the commercial 20% Pt/C catalyst. These insights could open up a new avenue for fabrication of cost-effective Pt/C HER catalysts based on ALD technique.
topic hydrogen evolution reaction
Pt-based catalysts
functionalized Vulcan Carbon
atomic layer deposition
cost-effective
url https://www.frontiersin.org/article/10.3389/fmats.2019.00251/full
work_keys_str_mv AT weiluo boostingherperformanceofptbasedcatalystsimmobilizedonfunctionalizedvulcancarbonbyatomiclayerdeposition
AT jiegan boostingherperformanceofptbasedcatalystsimmobilizedonfunctionalizedvulcancarbonbyatomiclayerdeposition
AT zikunhuang boostingherperformanceofptbasedcatalystsimmobilizedonfunctionalizedvulcancarbonbyatomiclayerdeposition
AT wenyaochen boostingherperformanceofptbasedcatalystsimmobilizedonfunctionalizedvulcancarbonbyatomiclayerdeposition
AT gangqian boostingherperformanceofptbasedcatalystsimmobilizedonfunctionalizedvulcancarbonbyatomiclayerdeposition
AT xingguizhou boostingherperformanceofptbasedcatalystsimmobilizedonfunctionalizedvulcancarbonbyatomiclayerdeposition
AT xuezhiduan boostingherperformanceofptbasedcatalystsimmobilizedonfunctionalizedvulcancarbonbyatomiclayerdeposition
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