Controlled growth of CdS–Cu 2−x S lateral heteroshells on Au nanoparticles with improved photocatalytic activity and photothermal efficiency

Substantial effort has been devoted to synthesizing plasmonic metal/semiconductor heteronanostructures with controlled morphology owing to their excellent performance ranging from photocatalysis to optical information processing. However, growing semiconductor heterojunctions with both counterparts...

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Published in:Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2019-02, Vol.7 (7), p.3408-3414
Main Authors: Ma, Song, Chen, Kai, Qiu, Yun-Hang, Gong, Li-Li, Pan, Gui-Min, Lin, Yong-Jie, Hao, Zhong-Hua, Zhou, Li, Wang, Qu-Quan
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Language:English
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cited_by cdi_FETCH-LOGICAL-c146t-c090b00cddb753f66ec0d2d0a7a85c8d44600f935c61d890f35445d1d77d5b373
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container_end_page 3414
container_issue 7
container_start_page 3408
container_title Journal of materials chemistry. A, Materials for energy and sustainability
container_volume 7
creator Ma, Song
Chen, Kai
Qiu, Yun-Hang
Gong, Li-Li
Pan, Gui-Min
Lin, Yong-Jie
Hao, Zhong-Hua
Zhou, Li
Wang, Qu-Quan
description Substantial effort has been devoted to synthesizing plasmonic metal/semiconductor heteronanostructures with controlled morphology owing to their excellent performance ranging from photocatalysis to optical information processing. However, growing semiconductor heterojunctions with both counterparts in direct contact with the plasmonic metal nanostructures remains challenging. Herein, we report a three-step method to grow CdS–Cu 2−x S lateral heteroshells on Au nanoparticles with all components directly connected with each other. Ag 2 S semi shells are initially grown on the Au nanoparticles as an interim layer, Cu 2−x S semi shells are then grown on the uncovered surface of the Au nanoparticles, and CdS is generated by replacing Ag 2 S and the Au core complex with CdS–Cu 2−x S lateral heteroshells Au/CdS–Cu 2−x S is finally obtained. These complexes integrate the plasmon resonances of Au in the visible region and that of Cu 2−x S in the near-infrared region, and therefore show improved photocatalytic activity and high photothermal efficiency. This study offers a synthetic approach to grow metal sulfides on Au nanostructures which have diverse applications in photocatalysis and photothermal therapy.
doi_str_mv 10.1039/C8TA11154E
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title Controlled growth of CdS–Cu 2−x S lateral heteroshells on Au nanoparticles with improved photocatalytic activity and photothermal efficiency
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