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Electronic and optical properties of MoS2/α-Fe2O3(0001) heterostructures: a first-principles investigation

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Abstract

Experimentally, MoS2/α-Fe2O3 composites have exhibited excellent photocatalytic activity in photoelectrochemical tests. However, the micromechanism of their improved photocatalytic efficiency is not clear. In this research, we use MoS2/α-Fe2O3(0001) heterostructures as a case to study the effects of interfacial atomic structure, electronic structure, and optical properties on the enhanced photocatalytic performance. Our results show that the MoS2/Fe–Fe–O3–R heterostructure is the most promising one in improving the photocatalytic performance. First, there is a strong coupling between the MoS2 film and Fe–Fe–O3–R surface, which could provide the channel for photo-generated carrier transfer. Moreover, the increase of carrier concentration in the MoS2/Fe–Fe–O3–R system can be predicted according to the emergence of occupied electronic states below the conduction band edge (CBE) and the enhancement of the Fermi level. Additionally, the MoS2/Fe–Fe–O3–R heterostructure can exhibit better optical absorption in the visible light range. In summary, these electronic features may shed light on the experimental phenomenon, and be helpful in further improving the photocatalytic performance of MoS2/α-Fe2O3 composites.

Graphical abstract: Electronic and optical properties of MoS2/α-Fe2O3(0001) heterostructures: a first-principles investigation

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Publication details

The article was received on 08 Jul 2017, accepted on 22 Sep 2017 and first published on 26 Sep 2017


Article type: Paper
DOI: 10.1039/C7CE01260H
Citation: CrystEngComm, 2017, Advance Article
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    Electronic and optical properties of MoS2/α-Fe2O3(0001) heterostructures: a first-principles investigation

    H. Pan, X. Meng, X. Qi and G. Qin, CrystEngComm, 2017, Advance Article , DOI: 10.1039/C7CE01260H

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