Metallic 1T phase MoS2 nanosheets as a highly efficient co-catalyst for the photocatalytic hydrogen evolution of CdS nanorods

Ping Du; Yuanzhi Zhu; Junyang Zhang; Danyun Xu; Wenchao Peng; Guoliang Zhang; Fengbao Zhang; Xiaobin Fan

doi:10.1039/C6RA10170D

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Metallic 1T phase MoS₂ nanosheets as a highly efficient co-catalyst for the photocatalytic hydrogen evolution of CdS nanorods†

Ping Du,^a Yuanzhi Zhu,^a Junyang Zhang,^a Danyun Xu,^a Wenchao Peng,^a Guoliang Zhang,^a Fengbao Zhang^a and Xiaobin Fan*^a

Author affiliations

* Corresponding authors

^a School of Chemical Engineering and Technology, State Key Laboratory of Chemical Engineering, Collaborative Innovation Center of Chemical Science and Engineering, Tianjin University, Tianjin 300072, China
E-mail: xiaobinfan@tju.edu.cn

Abstract

Conversion of solar energy to hydrogen requires efficient, low-cost and earth-abundant H-producing photocatalysts. Herein, a novel noble metal-free photocatalyst 1T–MoS₂/CdS NRs was prepared via a simple method. The 1T–MoS₂/CdS NRs hybrid showed the highest photocatalytic activity when the optimized weight ratio of metallic 1T–MoS₂ to CdS NRs is 10 wt% in a lactic acid solution under visible light. A 794.93 μmol h⁻¹ H₂ evolution rate of the 1T–MoS₂/CdS NRs hybrid reached not only 35 times improvement than pure CdS NRs but also 4.5 times enhancement than the 2H–MoS₂/CdS NRs hybrid. The relative mechanism has been investigated. 1T–MoS₂/CdS NRs interfaces could form ohmic contact with very low contact resistances to promote photoexcited electron transfer, which was different from the p/n junction on the 2H–MoS₂/CdS NRs hybrid.

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Article information

DOI: https://doi.org/10.1039/C6RA10170D
Article type: Paper
Submitted: 20 Apr 2016
Accepted: 21 Jul 2016
First published: 05 Aug 2016

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RSC Adv., 2016,6, 74394-74399

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Metallic 1T phase MoS₂ nanosheets as a highly efficient co-catalyst for the photocatalytic hydrogen evolution of CdS nanorods

P. Du, Y. Zhu, J. Zhang, D. Xu, W. Peng, G. Zhang, F. Zhang and X. Fan, RSC Adv., 2016, 6, 74394 DOI: 10.1039/C6RA10170D

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