Litcius/Paper detail

Band gaps of halide perovskites from a Wannier-localized optimally tuned screened range-separated hybrid functional

Guy Ohad, Dahvyd Wing, Stephen E. Gant, Ayala V. Cohen, Jonah B. Haber, Francisca Sagredo, Marina R. Filip, Jeffrey B. Neaton, Leeor Kronik

2022Physical Review Materials27 citationsDOI

Abstract

The accurate prediction of the band gaps of halide perovskites within density functional theory is known to be challenging. The recently developed Wannier-localized optimally tuned screened range-separated hybrid functional was shown to be highly accurate for fundamental band gaps of standard semiconductors and insulators. This was achieved by selecting the parameters of the functional to satisfy an ansatz that generalizes the ionization potential theorem to the removal of charge from a state that corresponds to a Wannier function. Here, we present applications of the method to the band gaps of typical halide perovskites. We find a satisfyingly small formal mean absolute error of $\ensuremath{\sim}$0.1 eV with respect to experimental band gaps and very good agreement with previous many-body perturbation theory calculations.

Topics & Concepts

Wannier functionHybrid functionalBand gapDensity functional theoryHalideSemiconductorMaterials scienceAnsatzElectronic band structureRange (aeronautics)Perturbation theory (quantum mechanics)Condensed matter physicsQuantum mechanicsPhysicsOptoelectronicsChemistryInorganic chemistryComposite materialPerovskite Materials and Applications2D Materials and ApplicationsElectronic and Structural Properties of Oxides