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In situ synthesis of MoS 2 /graphene nanosheets as free-standing and flexible electrode paper for high-efficiency hydrogen evolution reaction

In this article, an exquisite flexible hybrid MoS /graphene free-standing electrocatalyst paper was fabricated by a one-step solvothermal process. The assembled MoS /graphene catalysts exhibit significantly enhanced electrocatalytic activity and cycling stability towards the splitting of water in ac...

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Published in:RSC advances 2018-03, Vol.8 (19), p.10698-10705
Main Authors: Zhang, Xianghui, Zhang, Mingguang, Tian, Yiqun, You, Jing, Yang, Congxing, Su, Jun, Li, Yuebin, Gao, Yihua, Gu, Haoshuang
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Language:English
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cited_by cdi_FETCH-LOGICAL-c993-f7e90d492e75bbb3d00e3e51c6c056bef95e9bc0293d921c00d00ef22ad0f2df3
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container_end_page 10705
container_issue 19
container_start_page 10698
container_title RSC advances
container_volume 8
creator Zhang, Xianghui
Zhang, Mingguang
Tian, Yiqun
You, Jing
Yang, Congxing
Su, Jun
Li, Yuebin
Gao, Yihua
Gu, Haoshuang
description In this article, an exquisite flexible hybrid MoS /graphene free-standing electrocatalyst paper was fabricated by a one-step solvothermal process. The assembled MoS /graphene catalysts exhibit significantly enhanced electrocatalytic activity and cycling stability towards the splitting of water in acidic solution. Furthermore, a strategic balance of abundant active sites at the edge of the S-Mo-S layers with efficient electron transfer in the MoS /graphene hybrid catalyst plays a key role in controlling the electrochemical performance of the MoS nanosheets. Most importantly, the hybrid MoS /graphene nanosheet paper shows excellent flexibility and high electrocatalytic performance under the various bending states. This work demonstrates an opportunity for the development of flexible electrocatalysts, which have potential applications in renewable energy conversion and energy storage systems.
doi_str_mv 10.1039/C8RA01226A
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title In situ synthesis of MoS 2 /graphene nanosheets as free-standing and flexible electrode paper for high-efficiency hydrogen evolution reaction
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