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First-principles study for the electric field influence on electronic and optical properties of AlN/g-C3N4 heterostructure

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Constructing a heterostructure and applying an external electric field are effective methods for enhancing photocatalytic efficiency. In this study, we systematically investigate the electronic and optical properties of an AlN/g-C3N4… Click to show full abstract

Constructing a heterostructure and applying an external electric field are effective methods for enhancing photocatalytic efficiency. In this study, we systematically investigate the electronic and optical properties of an AlN/g-C3N4 heterostructure under varying electric fields using first principles. Our findings indicate that the AlN/g-C3N4 heterostructure demonstrates high stability, and van der Waals (vdW) interactions exist between the interfaces. Compared with monolayers AlN and g-C3N4, the reduced bandgap of AlN/g-C3N4 enhances electron escape ability. Furthermore, we observe that the bandgap of AlN/g-C3N4 reduces when an electric field is applied and the band alignment changes. Importantly, −0.4 V/Å AlN/g-C3N4 is not only a type-II heterostructure, forming a built-in electric field, but it also has a band alignment that spans the redox reaction of water. Consequently, the compound rate of electron–hole pairs substantially reduces, enhancing the possibility of AlN/g-C3N4 photocatalytic water splitting. Our findings provide a theoretical foundation for related experimental preparations.

Keywords: electric field; heterostructure; c3n4 heterostructure; aln c3n4

Journal Title: Journal of Applied Physics
Year Published: 2023

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