High electron transfer of TiO2nanorod@carbon layer supported flower-like WS2nanosheets for triiodide electrocatalytic reduction

Wei Wang; Tianyu Liu; Chuan Ding; Min Wang; Jirong Bai; Jintao Zhang; Hengchang Bi; Yueming Sun; Yuqiao Wang

doi:10.1039/d0nj06230h

High electron transfer of TiO₂nanorod@carbon layer supported flower-like WS₂nanosheets for triiodide electrocatalytic reduction

Wei Wang^*
, Tianyu Liu
, Chuan Ding
, Min Wang
, Jirong Bai
, Jintao Zhang
, Hengchang Bi^*
, Yueming Sun
, Yuqiao Wang^*

^*Corresponding author for this work

School of Communication and Electronic Engineering

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

WS2-based nanomaterials have been extensively studied due to their unique catalytic properties. However, it is still a great challenge to prepare WS2-based electrocatalysts with both maximally active edge sites exposure and high electronic conductivity. In this work, we have engineered a 1D-2D multidimensional nanostructured TiO2 nanorod@carbon layer supported flower-like WS2 nanosheets (TNRs@C@WS2) electrocatalyst with abundant exposed active edge sites as well as high electron transfer abilities. The TNRs@C@WS2 was explored as a good catalyst for the triiodide reduction reaction. The assembled dye-sensitized solar cell achieves a high photoelectric conversion efficiency (7.15%) and comparable to that (7.18%) of Pt. This unique 1D-2D multidimensional nanostructure may open up new opportunities for a variety of applications in clean energy and catalysis.

Original language	English
Pages (from-to)	3387-3391
Number of pages	5
Journal	New Journal of Chemistry
Volume	45
Issue number	7
DOIs	https://doi.org/10.1039/d0nj06230h
State	Published - 21 Feb 2021

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title = "High electron transfer of TiO2nanorod@carbon layer supported flower-like WS2nanosheets for triiodide electrocatalytic reduction",

abstract = "WS2-based nanomaterials have been extensively studied due to their unique catalytic properties. However, it is still a great challenge to prepare WS2-based electrocatalysts with both maximally active edge sites exposure and high electronic conductivity. In this work, we have engineered a 1D-2D multidimensional nanostructured TiO2 nanorod@carbon layer supported flower-like WS2 nanosheets (TNRs@C@WS2) electrocatalyst with abundant exposed active edge sites as well as high electron transfer abilities. The TNRs@C@WS2 was explored as a good catalyst for the triiodide reduction reaction. The assembled dye-sensitized solar cell achieves a high photoelectric conversion efficiency (7.15\%) and comparable to that (7.18\%) of Pt. This unique 1D-2D multidimensional nanostructure may open up new opportunities for a variety of applications in clean energy and catalysis.",

author = "Wei Wang and Tianyu Liu and Chuan Ding and Min Wang and Jirong Bai and Jintao Zhang and Hengchang Bi and Yueming Sun and Yuqiao Wang",

note = "Publisher Copyright: {\textcopyright} The Royal Society of Chemistry and the Centre National de la Recherche Scientifique.",

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doi = "10.1039/d0nj06230h",

language = "英语",

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TY - JOUR

T1 - High electron transfer of TiO2nanorod@carbon layer supported flower-like WS2nanosheets for triiodide electrocatalytic reduction

AU - Wang, Wei

AU - Liu, Tianyu

AU - Ding, Chuan

AU - Wang, Min

AU - Bai, Jirong

AU - Zhang, Jintao

AU - Bi, Hengchang

AU - Sun, Yueming

AU - Wang, Yuqiao

PY - 2021/2/21

Y1 - 2021/2/21

N2 - WS2-based nanomaterials have been extensively studied due to their unique catalytic properties. However, it is still a great challenge to prepare WS2-based electrocatalysts with both maximally active edge sites exposure and high electronic conductivity. In this work, we have engineered a 1D-2D multidimensional nanostructured TiO2 nanorod@carbon layer supported flower-like WS2 nanosheets (TNRs@C@WS2) electrocatalyst with abundant exposed active edge sites as well as high electron transfer abilities. The TNRs@C@WS2 was explored as a good catalyst for the triiodide reduction reaction. The assembled dye-sensitized solar cell achieves a high photoelectric conversion efficiency (7.15%) and comparable to that (7.18%) of Pt. This unique 1D-2D multidimensional nanostructure may open up new opportunities for a variety of applications in clean energy and catalysis.

AB - WS2-based nanomaterials have been extensively studied due to their unique catalytic properties. However, it is still a great challenge to prepare WS2-based electrocatalysts with both maximally active edge sites exposure and high electronic conductivity. In this work, we have engineered a 1D-2D multidimensional nanostructured TiO2 nanorod@carbon layer supported flower-like WS2 nanosheets (TNRs@C@WS2) electrocatalyst with abundant exposed active edge sites as well as high electron transfer abilities. The TNRs@C@WS2 was explored as a good catalyst for the triiodide reduction reaction. The assembled dye-sensitized solar cell achieves a high photoelectric conversion efficiency (7.15%) and comparable to that (7.18%) of Pt. This unique 1D-2D multidimensional nanostructure may open up new opportunities for a variety of applications in clean energy and catalysis.

UR - https://www.scopus.com/pages/publications/85101692673

U2 - 10.1039/d0nj06230h

DO - 10.1039/d0nj06230h

M3 - 文章

AN - SCOPUS:85101692673

SN - 1144-0546

VL - 45

SP - 3387

EP - 3391

JO - New Journal of Chemistry

JF - New Journal of Chemistry

IS - 7

ER -

High electron transfer of TiO₂nanorod@carbon layer supported flower-like WS₂nanosheets for triiodide electrocatalytic reduction

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