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Construction of Two‐Dimensional MoS 2 /CdS p–n Nanohybrids for Highly Efficient Photocatalytic Hydrogen Evolution

2D MoS nanosheets have been utilized to fabricate 2D MoS/CdS p–n nanohybrids through a one‐pot solvothermal process. Due to the unique p–n junction heterostructure, large specific surface area, and decreased band gap, MoS/CdS nanohybrids manifested a superior H‐production rate of ∼137 μmol h under v... Full description

Journal Title: Chemistry – A European Journal 18 August 2014, Vol.20(34), pp.10632-10635
Main Author: Zhang, Jian
Other Authors: Zhu, Zhenping , Feng, Xinliang
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: ISSN: 0947-6539 ; E-ISSN: 1521-3765 ; DOI: 10.1002/chem.201402522
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recordid: wj10.1002/chem.201402522
title: Construction of Two‐Dimensional MoS 2 /CdS p–n Nanohybrids for Highly Efficient Photocatalytic Hydrogen Evolution
format: Article
creator:
  • Zhang, Jian
  • Zhu, Zhenping
  • Feng, Xinliang
subjects:
  • Cadmium Sulfide
  • Molybdenum Disulfide
  • 2d Nanohybrids
  • Photocatalysis
  • P–N Junction
ispartof: Chemistry – A European Journal, 18 August 2014, Vol.20(34), pp.10632-10635
description: 2D MoS nanosheets have been utilized to fabricate 2D MoS/CdS p–n nanohybrids through a one‐pot solvothermal process. Due to the unique p–n junction heterostructure, large specific surface area, and decreased band gap, MoS/CdS nanohybrids manifested a superior H‐production rate of ∼137 μmol h under visible‐light irradiation and an apparent quantum yield of 10.5 % at 450 nm. : 2D MoS/CdS p–n nanohybrids are constructed by a one‐pot solvothermal method. Due to the unique p–n junction heterostructure, large specific surface area, and decreased band gap, MoS/CdS p–n nanohybrids provide an excellent H‐evolution rate of 137 μmol h under visible‐light irradiation and an apparent quantum yield of 10.5 % at 450 nm (see figure).
language: eng
source:
identifier: ISSN: 0947-6539 ; E-ISSN: 1521-3765 ; DOI: 10.1002/chem.201402522
fulltext: fulltext
issn:
  • 0947-6539
  • 09476539
  • 1521-3765
  • 15213765
url: Link


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titleConstruction of Two‐Dimensional MoS 2 /CdS p–n Nanohybrids for Highly Efficient Photocatalytic Hydrogen Evolution
creatorZhang, Jian ; Zhu, Zhenping ; Feng, Xinliang
ispartofChemistry – A European Journal, 18 August 2014, Vol.20(34), pp.10632-10635
identifier
subjectCadmium Sulfide ; Molybdenum Disulfide ; 2d Nanohybrids ; Photocatalysis ; P–N Junction
description2D MoS nanosheets have been utilized to fabricate 2D MoS/CdS p–n nanohybrids through a one‐pot solvothermal process. Due to the unique p–n junction heterostructure, large specific surface area, and decreased band gap, MoS/CdS nanohybrids manifested a superior H‐production rate of ∼137 μmol h under visible‐light irradiation and an apparent quantum yield of 10.5 % at 450 nm. : 2D MoS/CdS p–n nanohybrids are constructed by a one‐pot solvothermal method. Due to the unique p–n junction heterostructure, large specific surface area, and decreased band gap, MoS/CdS p–n nanohybrids provide an excellent H‐evolution rate of 137 μmol h under visible‐light irradiation and an apparent quantum yield of 10.5 % at 450 nm (see figure).
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titleConstruction of Two‐Dimensional MoS 2 /CdS p–n Nanohybrids for Highly Efficient Photocatalytic Hydrogen Evolution
description2D MoS nanosheets have been utilized to fabricate 2D MoS/CdS p–n nanohybrids through a one‐pot solvothermal process. Due to the unique p–n junction heterostructure, large specific surface area, and decreased band gap, MoS/CdS nanohybrids manifested a superior H‐production rate of ∼137 μmol h under visible‐light irradiation and an apparent quantum yield of 10.5 % at 450 nm. : 2D MoS/CdS p–n nanohybrids are constructed by a one‐pot solvothermal method. Due to the unique p–n junction heterostructure, large specific surface area, and decreased band gap, MoS/CdS p–n nanohybrids provide an excellent H‐evolution rate of 137 μmol h under visible‐light irradiation and an apparent quantum yield of 10.5 % at 450 nm (see figure).
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abstract2D MoS nanosheets have been utilized to fabricate 2D MoS/CdS p–n nanohybrids through a one‐pot solvothermal process. Due to the unique p–n junction heterostructure, large specific surface area, and decreased band gap, MoS/CdS nanohybrids manifested a superior H‐production rate of ∼137 μmol h under visible‐light irradiation and an apparent quantum yield of 10.5 % at 450 nm. : 2D MoS/CdS p–n nanohybrids are constructed by a one‐pot solvothermal method. Due to the unique p–n junction heterostructure, large specific surface area, and decreased band gap, MoS/CdS p–n nanohybrids provide an excellent H‐evolution rate of 137 μmol h under visible‐light irradiation and an apparent quantum yield of 10.5 % at 450 nm (see figure).
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pubWILEY‐VCH Verlag
doi10.1002/chem.201402522
pages10632-10635
date2014-08-18