| Popis: |
This study systematically investigates the electronic structure and bonding properties of two-dimensional bilayer transition metal chalcogenides MX$_2$ (M = Mo, W; X = S, Se, Te) using density functional theory calculations. Through the analysis of band gaps, deformation bond energies, and non-Hermitian bonding characteristics of various MX$_2$ compounds, the electronic properties and chemical bonding features are comprehensively examined. The findings demonstrate that charge transfer plays a critical role in electron mass fluctuation, with the incorporation of topological geometric analysis confirming the influence of mass changes on atomic bonding and electronic states. Furthermore, Heterojunctions between distinct atomic layers are shown to effectively modulate the band gap of two-dimensional bilayer transition metal chalcogenides. This work establishes a theoretical foundation for advancing the application of these materials. |
