Structural and Bonding Insights into B8Cu3- Clusters: A DFT Study

Abstract

In this study, we employ density functional theory (DFT) to investigate the structural and electronic properties B8Cu3- clusters -- boron-based frameworks doped with three copper atoms. The results indicate that the lowest-energy structure features a vertical Cu3 triangle supported on a B8 wheel geometry, whereas the horizontally supported configuration is 3.0 (5.6) kcal/mol higher in energy at the PBE0 (ωB97X) functional. Electron localization function (ELF) and Mulliken population analyses reveal that the most stable isomer exhibits strong Cu-B interactions and significant electron delocalization, which contribute to its enhanced stability. Localized orbital locator (LOL) maps further support this finding by showing pronounced electron localization around the Cu3 unit in the more stable structure. These insights highlight the possible role of Cu-centered multicenter bonding in stabilizing boron-based nanoclusters.