Electron counting and high pressure phase transformations in metal hexaborides

Abstract: Pressure-induced structural transitions of the alkaline earth hexaborides, CaB6, SrB6, and BaB6, are studied theoretically using electron counting rules and density functional theory calculations. We demonstrate the applicability of gas-phase borane electron counting methods to solid-state metal borides and validate the assumptions of the rules by DFT calculations. All three compounds share ambient-pressure and high-pressure structures, but BaB6 differs from CaB6 and SrB6 at intermediate pressures. The unique … Show more

“…Application of the rules will be worked through in detail as an introduction for researchers who are unfamiliar with this approach to chemical structure. We will also perform structural optimizations and enthalpy calculations on MB 6 (M = Ca, Sr, Ba) to study all alkaline earth hexaborides together and find patterns in their phase evolution …”

Electron Counting and High-Pressure Phase Transformations in Metal Hexaborides

“…Application of the rules will be worked through in detail as an introduction for researchers who are unfamiliar with this approach to chemical structure. We will also perform structural optimizations and enthalpy calculations on MB 6 (M = Ca, Sr, Ba) to study all alkaline earth hexaborides together and find patterns in their phase evolution …”

Electron Counting and High-Pressure Phase Transformations in Metal Hexaborides