Freestanding Pt nanosheets with high porosity and improved electrocatalytic performance toward the oxygen reduction reaction

Freestanding Pt nanosheets with high porosity and improved electrocatalytic performance toward the oxygen reduction reaction

Because of the intriguing electronic properties, high specific surface areas and confinement effect, two-dimensional (2D) noble metal nanosheets usually exhibit fascinating physicochemical properties and thus hold great promises in fuel cell devices and beyond. Herein, 2D porous Pt nanosheets compos...

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Main Authors: Chuang Fan, Zihan Huang, Xianyu Hu, Zhaoping Shi, Tianyang Shen, Yawen Tang, Xiaojun Wang, Lin Xu
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2018-10-01
Series:Green Energy & Environment
Online Access:http://www.sciencedirect.com/science/article/pii/S2468025718300487
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spelling doaj-45cc36b9ed4f4181b37b74e50ab7fac92021-02-02T02:16:59ZengKeAi Communications Co., Ltd.Green Energy & Environment2468-02572018-10-0134310317Freestanding Pt nanosheets with high porosity and improved electrocatalytic performance toward the oxygen reduction reactionChuang Fan0Zihan Huang1Xianyu Hu2Zhaoping Shi3Tianyang Shen4Yawen Tang5Xiaojun Wang6Lin Xu7School of Life Science, Nanjing Normal University, Nanjing, 210023, ChinaSchool of Life Science, Nanjing Normal University, Nanjing, 210023, ChinaSchool of Life Science, Nanjing Normal University, Nanjing, 210023, ChinaSchool of Life Science, Nanjing Normal University, Nanjing, 210023, ChinaSchool of Life Science, Nanjing Normal University, Nanjing, 210023, ChinaSchool of Life Science, Nanjing Normal University, Nanjing, 210023, ChinaSchool of Life Science, Nanjing Normal University, Nanjing, 210023, China; Corresponding authors.School of Chemistry and Materials Science, Nanjing Normal University, Nanjing, 210023, China; Corresponding authors.Because of the intriguing electronic properties, high specific surface areas and confinement effect, two-dimensional (2D) noble metal nanosheets usually exhibit fascinating physicochemical properties and thus hold great promises in fuel cell devices and beyond. Herein, 2D porous Pt nanosheets composed by interweaved ultrathin nanowires are successfully fabricated via a facile NaCl-templated process. Controlled experiments demonstrate that the adoption of NaCl and appropriate ratio of NaCl and Pt precursor are indispensable for the formation of porous Pt nanosheets. Impressively, the cost-effective NaCl template can be recyclable through a simple recrystallization procedure, which may greatly reduce the synthetic cost. By virtue of their structural merits, including high porosity, 2D anisotropy and abundant defects, the resultant porous Pt nanosheets exhibit superior activity and enhanced stability towards the oxygen reduction reaction (ORR) compared to the commercial Pt black in alkaline medium. The present study not only offers a high-performance electrocatalyst for fuel cell devices, but also provides a new perspective toward the rational synthesis of 2D noble metal nanosheets with high porosity and diverse functionalities. Keywords: Platinum, NaCl template, Porous nanosheets, Oxygen reduction reactionhttp://www.sciencedirect.com/science/article/pii/S2468025718300487
collection DOAJ
language English
format Article
sources DOAJ
author Chuang Fan
Zihan Huang
Xianyu Hu
Zhaoping Shi
Tianyang Shen
Yawen Tang
Xiaojun Wang
Lin Xu
spellingShingle Chuang Fan
Zihan Huang
Xianyu Hu
Zhaoping Shi
Tianyang Shen
Yawen Tang
Xiaojun Wang
Lin Xu
Freestanding Pt nanosheets with high porosity and improved electrocatalytic performance toward the oxygen reduction reaction
Green Energy & Environment
author_facet Chuang Fan
Zihan Huang
Xianyu Hu
Zhaoping Shi
Tianyang Shen
Yawen Tang
Xiaojun Wang
Lin Xu
author_sort Chuang Fan
title Freestanding Pt nanosheets with high porosity and improved electrocatalytic performance toward the oxygen reduction reaction
title_short Freestanding Pt nanosheets with high porosity and improved electrocatalytic performance toward the oxygen reduction reaction
title_full Freestanding Pt nanosheets with high porosity and improved electrocatalytic performance toward the oxygen reduction reaction
title_fullStr Freestanding Pt nanosheets with high porosity and improved electrocatalytic performance toward the oxygen reduction reaction
title_full_unstemmed Freestanding Pt nanosheets with high porosity and improved electrocatalytic performance toward the oxygen reduction reaction
title_sort freestanding pt nanosheets with high porosity and improved electrocatalytic performance toward the oxygen reduction reaction
publisher KeAi Communications Co., Ltd.
series Green Energy & Environment
issn 2468-0257
publishDate 2018-10-01
description Because of the intriguing electronic properties, high specific surface areas and confinement effect, two-dimensional (2D) noble metal nanosheets usually exhibit fascinating physicochemical properties and thus hold great promises in fuel cell devices and beyond. Herein, 2D porous Pt nanosheets composed by interweaved ultrathin nanowires are successfully fabricated via a facile NaCl-templated process. Controlled experiments demonstrate that the adoption of NaCl and appropriate ratio of NaCl and Pt precursor are indispensable for the formation of porous Pt nanosheets. Impressively, the cost-effective NaCl template can be recyclable through a simple recrystallization procedure, which may greatly reduce the synthetic cost. By virtue of their structural merits, including high porosity, 2D anisotropy and abundant defects, the resultant porous Pt nanosheets exhibit superior activity and enhanced stability towards the oxygen reduction reaction (ORR) compared to the commercial Pt black in alkaline medium. The present study not only offers a high-performance electrocatalyst for fuel cell devices, but also provides a new perspective toward the rational synthesis of 2D noble metal nanosheets with high porosity and diverse functionalities. Keywords: Platinum, NaCl template, Porous nanosheets, Oxygen reduction reaction
url http://www.sciencedirect.com/science/article/pii/S2468025718300487
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