Possible Orthorhombic Phase of Ta2O5 under High Pressures

Abstract

A potential orthorhombic phase of Ta2O5, designated as Y-Ta2O5, is predicted under high-pressure conditions through density functional theory (DFT) calculations combined with structural search algorithms. This phase, consisting of four formula units per unit cell (Z = 4), exhibits the highest known Ta-O coordination numbers. Y-Ta2O5 is found to be the most energetically favorable form of Ta2O5 in the pressure range of approximately 70 GPa to at least 200 GPa. Both standard DFT-GGA and higher-accuracy GW calculations reveal that Y-Ta2O5 is a wide bandgap semiconductor with a direct bandgap. Additionally, nuclear quantum effects (NQEs) introduce nontrivial corrections to external pressure at fixed volumes, underscoring their significance in high-pressure phase stability analyses.