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GeS Phases from First-Principles: Structure Prediction, Optical Properties, and Phase Transitions upon Compression

Long Truong Nguyen, Guy Makov

2022Crystal Growth & Design15 citationsDOI

Abstract

The structures of GeS beyond the orthorhombic α-Pnma phase are explored by density functional theory calculations of the energetics and phonon spectra guided by an evolutionary algorithm. We found six new, dynamically stable structures at ambient conditions, close to the ground state. Our study of the electronic and optical properties of these unconventional phases indicates distinct differences from α-Pnma GeS. The band gaps of the new phases vary in the range of 0.39–1.59 eV, and their optical properties are attractive for optoelectronic applications. Upon compression, the new GeS structure denoted as γ-Pnma (analog to γ-Pnma SnSe) is thermodynamically preferred over α-Pnma at 15 GPa. At higher pressures, the GeS structure converges to a Cmcm-like structure at 30 GPa. Finally, cubic Pm3̅m is the favorable and stable phase at 70 GPa. The mechanism of the pressure-induced transition correlates with the delocalization of the lone pairs.

Topics & Concepts

Orthorhombic crystal systemDelocalized electronDensity functional theoryPhononPhase (matter)Phase transitionElectronic structureElectronic band structureCrystallographyCrystal structure predictionBand gapMaterials scienceCondensed matter physicsLone pairChemical physicsChemistryCrystal structureComputational chemistryOptoelectronicsPhysicsMoleculeOrganic chemistry2D Materials and ApplicationsChalcogenide Semiconductor Thin FilmsPerovskite Materials and Applications
GeS Phases from First-Principles: Structure Prediction, Optical Properties, and Phase Transitions upon Compression | Litcius