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1D/2D Heterostructures as Ultrathin Catalysts for Hydrogen Evolution Reaction

Zhixing Lu, Dan Liang, Xiaofan Ping, Lei Xing, Zechao Wang, Liyuan Wu, Pengfei Lu, Liying Jiao

2020Small24 citationsDOI

Abstract

Abstract 2D MoS 2 has emerged as a promising alternative to Pt‐based catalysts for hydrogen evolution reaction (HER) due to its low cost and earth abundance. However, insufficient active sites of basal plane and poor conductivity become the foremost factors restricting the catalytic performance of MoS 2 . Here, a facile strategy is presented to enhance the HER performance of MoS 2 by converting its 2D structure into 1D/2D heterostructures of Mo 6 Te 6 /MoS 2(1− x ) Te 2 x by the in situ tellurization. As‐prepared 1D/2D heterostructures exhibit excellent HER performance with the Tafel slope of ≈56 mV dec −1 (only one‐third of that for pristine MoS 2 ). The enhanced HER catalytic activity is attributed to more Te/S vacancies introduced by tellurization, which serve as the active sites as suggested by theoretical calculations. Besides, the formation of highly conductive well‐aligned quasi‐1D Mo 6 Te 6 nanobelts facilitate charge transport in HER. Previous work provides a facile approach to construct mixed dimensional materials, and opens up a new avenue to the properties modulation of 2D transition metal chalcogenides.

Topics & Concepts

Tafel equationHeterojunctionCatalysisMaterials scienceTransition metalBasal planeNanotechnologyConductivityIn situChemical engineeringStackingMetalChemical physicsOptoelectronicsElectrochemistryElectrodeChemistryCrystallographyPhysical chemistryBiochemistryEngineeringOrganic chemistryMetallurgy2D Materials and ApplicationsMXene and MAX Phase MaterialsElectrocatalysts for Energy Conversion
1D/2D Heterostructures as Ultrathin Catalysts for Hydrogen Evolution Reaction | Litcius