A Hollow Porous CdS Photocatalyst

Qiming Sun; Ning Wang; Jihong Yu; Jimmy C. Yu

doi:10.1002/adma.201804368

A Hollow Porous CdS Photocatalyst

Qiming Sun, Ning Wang, Jihong Yu, Jimmy C. Yu^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

227 引用（Scopus）

摘要

Efficient light harvesting and charge separation are of great importance in solar-energy conversion on photocatalysts. Herein, the synthesis of a novel hollow porous CdS photocatalyst with effectively restrained electron–hole recombination is reported. By using microporous zeolites as a host and a hard template, ultrasmall Pd and PdS nanoparticles can be anchored separately onto the inner and outer surfaces of a hollow CdS structure. The metallic Pd pulls the photoexcited electrons away from CdS while PdS pushes the holes for more thorough oxidation of the sacrificial agent. The final Pd@CdS/PdS product exhibits superior visible-light-driven photocatalytic H₂ evolution rate of up to 144.8 mmol h⁻¹ g⁻¹. This is among the highest values of all the reported CdS-based catalysts. This synthetic approach may be used to fabricate other highly efficient catalysts with spatially separated cocatalysts.

源语言	英语
文章编号	1804368
期刊	Advanced Materials
卷	30
期	45
DOI	https://doi.org/10.1002/adma.201804368
出版状态	已出版 - 8 11月 2018
已对外发布	是

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title = "A Hollow Porous CdS Photocatalyst",

abstract = "Efficient light harvesting and charge separation are of great importance in solar-energy conversion on photocatalysts. Herein, the synthesis of a novel hollow porous CdS photocatalyst with effectively restrained electron–hole recombination is reported. By using microporous zeolites as a host and a hard template, ultrasmall Pd and PdS nanoparticles can be anchored separately onto the inner and outer surfaces of a hollow CdS structure. The metallic Pd pulls the photoexcited electrons away from CdS while PdS pushes the holes for more thorough oxidation of the sacrificial agent. The final Pd@CdS/PdS product exhibits superior visible-light-driven photocatalytic H2 evolution rate of up to 144.8 mmol h−1 g−1. This is among the highest values of all the reported CdS-based catalysts. This synthetic approach may be used to fabricate other highly efficient catalysts with spatially separated cocatalysts.",

keywords = "cadmium sulfide, charge separation, hydrogen evolution, photocatalysis, zeolites",

author = "Qiming Sun and Ning Wang and Jihong Yu and Yu, {Jimmy C.}",

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AU - Sun, Qiming

AU - Wang, Ning

AU - Yu, Jihong

AU - Yu, Jimmy C.

PY - 2018/11/8

Y1 - 2018/11/8

N2 - Efficient light harvesting and charge separation are of great importance in solar-energy conversion on photocatalysts. Herein, the synthesis of a novel hollow porous CdS photocatalyst with effectively restrained electron–hole recombination is reported. By using microporous zeolites as a host and a hard template, ultrasmall Pd and PdS nanoparticles can be anchored separately onto the inner and outer surfaces of a hollow CdS structure. The metallic Pd pulls the photoexcited electrons away from CdS while PdS pushes the holes for more thorough oxidation of the sacrificial agent. The final Pd@CdS/PdS product exhibits superior visible-light-driven photocatalytic H2 evolution rate of up to 144.8 mmol h−1 g−1. This is among the highest values of all the reported CdS-based catalysts. This synthetic approach may be used to fabricate other highly efficient catalysts with spatially separated cocatalysts.

AB - Efficient light harvesting and charge separation are of great importance in solar-energy conversion on photocatalysts. Herein, the synthesis of a novel hollow porous CdS photocatalyst with effectively restrained electron–hole recombination is reported. By using microporous zeolites as a host and a hard template, ultrasmall Pd and PdS nanoparticles can be anchored separately onto the inner and outer surfaces of a hollow CdS structure. The metallic Pd pulls the photoexcited electrons away from CdS while PdS pushes the holes for more thorough oxidation of the sacrificial agent. The final Pd@CdS/PdS product exhibits superior visible-light-driven photocatalytic H2 evolution rate of up to 144.8 mmol h−1 g−1. This is among the highest values of all the reported CdS-based catalysts. This synthetic approach may be used to fabricate other highly efficient catalysts with spatially separated cocatalysts.

KW - cadmium sulfide

KW - charge separation

KW - hydrogen evolution

KW - photocatalysis

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A Hollow Porous CdS Photocatalyst

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