Calculations for the Electronic, Interfacial and Optical Properties of Two-Dimensional AlN/ZrCO Heterostructure.

Recently, expanding the applications of two-dimensional (2D) materials by constructing van der Waals (vdW) heterostructures has become very popular. In this work, the structural, electronic and optical absorption performances of the heterostructure based on AlN and ZrCO monolayers are studied by first-principles simulation. It is found that AlN/ZrCO heterostructure is a semiconductor with a band gap of 1.790 eV. In the meanwhile, a type-I band structure is constructed in AlN/ZrCO heterostructure, which can provide a potential application of light emitting devices. The electron transfer between AlN and ZrCO monolayer is calculated as 0.1603 || in the heterostructure, and the potential of AlN/ZrCO heterostructure decreased by 0.663 eV from AlN layer to ZrCO layer. Beisdes, the AlN/ZrCO vdW heterostructure possesses excellent light absorption ability of in visible light region. Our research provides a theoretical guidance for the designing of advanced functional heterostructures.