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Anharmonic electron-phonon coupling in ultrasoft and locally disordered perovskites

Marios Zacharias, George Volonakis, Feliciano Giustino, Jacky Even

2023npj Computational Materials64 citationsDOIOpen Access PDF

Abstract

Abstract Anharmonicity and local disorder (polymorphism) are ubiquitous in perovskite physics, inducing various phenomena observed in scattering and spectroscopy experiments. Several of these phenomena still lack interpretation from first principles since, hitherto, no approach is available to account for anharmonicity and disorder in electron–phonon couplings. Here, relying on the special displacement method, we develop a unified treatment of both and demonstrate that electron–phonon coupling is strongly influenced when we employ polymorphous perovskite networks. We uncover that polymorphism in halide perovskites leads to vibrational dynamics far from the ideal noninteracting phonon picture and drives the gradual change in their band gap around phase transition temperatures. We also clarify that combined band gap corrections arising from disorder, spin-orbit coupling, exchange–correlation functionals of high accuracy, and electron–phonon coupling are all essential. Our findings agree with experiments, suggesting that polymorphism is the key to address pending questions on perovskites’ technological applications.

Topics & Concepts

AnharmonicityPhononCondensed matter physicsCoupling (piping)ElectronPhysicsPerovskite (structure)ScatteringMaterials scienceChemistryQuantum mechanicsCrystallographyMetallurgyPerovskite Materials and ApplicationsAdvanced Condensed Matter PhysicsSolid-state spectroscopy and crystallography
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