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Two-Dimensional GeC/MXY (M = Zr, Hf; X, Y = S, Se) Heterojunctions Used as Highly Efficient Overall Water-Splitting Photocatalysts

Guangzhao Wang, Wenjie Xie, San‐Dong Guo, Junli Chang, Ying Chen, Xiaojiang Long, Liujiang Zhou, Yee Sin Ang, Hongkuan Yuan

2024Molecules12 citationsDOIOpen Access PDF

Abstract

Hydrogen generation by photocatalytic water-splitting holds great promise for addressing the serious global energy and environmental crises, and has recently received significant attention from researchers. In this work, a method of assembling GeC/MXY (M = Zr, Hf; X, Y = S, Se) heterojunctions (HJs) by combining GeC and MXY monolayers (MLs) to construct direct Z-scheme photocatalytic systems is proposed. Based on first-principles calculations, we found that all the GeC/MXY HJs are stable van der Waals (vdW) HJs with indirect bandgaps. These HJs possess small bandgaps and exhibit strong light-absorption ability across a wide range. Furthermore, the built-in electric field (BIEF) around the heterointerface can accelerate photoinduced carrier separation. More interestingly, the suitable band edges of GeC/MXY HJs ensure sufficient kinetic potential to spontaneously accomplish water redox reactions under light irradiation. Overall, the strong light-harvesting ability, wide light-absorption range, small bandgaps, large heterointerfacial BIEFs, suitable band alignments, and carrier migration paths render GeC/MXY HJs highly efficient photocatalysts for overall water decomposition.

Topics & Concepts

HeterojunctionPhotocatalysisWater splittingAbsorption (acoustics)van der Waals forceMaterials scienceVisible spectrumPhotocatalytic water splittingOptoelectronicsMonolayerNanotechnologyPhotochemistryChemistryCatalysisMoleculeBiochemistryOrganic chemistryComposite materialAdvanced Photocatalysis TechniquesMXene and MAX Phase Materials2D Materials and Applications
Two-Dimensional GeC/MXY (M = Zr, Hf; X, Y = S, Se) Heterojunctions Used as Highly Efficient Overall Water-Splitting Photocatalysts | Litcius