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Impact of symmetry breaking and spin-orbit coupling on the band gap of halide perovskites

Fernando P. Sabino, Xin Zhao, Gustavo M. Dalpian, Alex Zunger

2024Physical review. B./Physical review. B29 citationsDOIOpen Access PDF

Abstract

Halide perovskite (HP) materials have recently emerged as a class of semiconductors with immense promise for various optoelectronic applications, ranging from solar cells to light-emitting diodes. One of the unique attributes of HPs is their tunable band gaps with different factors governing their value. The first factor is related to relativistic corrections [``mass-Darwin,'' connected to the $n{s}^{2}$ lone pairs, and spin-orbit coupling (SOC)] that induce an orbital shift or degeneracy splitting, resulting in a band-gap reduction. The second factor involves the structural configuration: in HPs the local symmetry of each Wyckoff position tends to be broken, inducing an opening of the band gap. Based on high-throughput density functional theory calculations, this paper systematically studies a possible self-cancelation on the band-gap correction for HPs when the polymorphous configuration---structural effects---and the SOC---electronic effects---are included. Our results indicate that the nature of interplay between SOC and symmetry breaking (SB) is that they are independent decoupling effects to describe the band-gap magnitude in halide perovskites. As a result of that, we observe a transitivity of the band-gap description; i.e., if we know the band gap of halide perovskites without SB and SOC, we can independently add the effects of band-gap reduction due to SOC and band-gap opening due to SB, regardless of the order in which these effects are considered.

Topics & Concepts

HalideCondensed matter physicsSpin–orbit interactionCoupling (piping)Symmetry (geometry)Symmetry breakingSpin (aerodynamics)Band gapPhysicsMaterials scienceQuantum mechanicsChemistryGeometryInorganic chemistryThermodynamicsMetallurgyMathematicsPerovskite Materials and ApplicationsSolid-state spectroscopy and crystallographyChalcogenide Semiconductor Thin Films
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