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Computational discovery of PtS2/GaSe van der Waals heterostructure for solar energy applications
Literature Information
Publication Date
2021-08-12
DOI
10.1039/D1CP02436A
Impact Factor
3.676
Authors
Rui Xiong, Rong Hu, Yinggan Zhang, Xuhui Yang, Peng Lin, Cuilian Wen, Baisheng Sa, Zhimei Sun
View Original
Abstract
2D van der Waals (vdW) heterostructures as potential materials for solar energy-related applications have been brought to the forefront for researchers. Here, by employing first-principles calculations, we proposed that the PtS2/GaSe vdW heterostructure is a distinguished candidate for photocatalytic water splitting and solar cells. It is shown that the PtS2/GaSe heterostructure exhibits high thermal stability with an indirect band gap of 1.81 eV. We further highlighted the strain induced type-V to type-II band alignment transitions and band gap variations in PtS2/GaSe heterostructures. More importantly, the outstanding absorption coefficients in the visible light region and high carrier mobility further guarantee the photo energy conversion efficiency of PtS2/GaSe heterostructures. Interestingly, the natural type-V band alignments of PtS2/GaSe heterostructures are appropriate for the redox potential of water. On the other hand, the power conversion efficiency of ZnO/(PtS2/GaSe heterostructure)/CIGS (copper indium gallium diselenide) solar cells can achieve ∼17.4%, which can be further optimized up to ∼18.5% by increasing the CIGS thickness. Our present study paves the way for facilitating the potential application of vdW heterostructures as a promising photocatalyst for water splitting as well as the buffer layer for solar cells.
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Source Journal
Physical Chemistry Chemical Physics
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10.3%
Articles per Year:
3036
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