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Detection and Correction of Delocalization Errors for Electron and Hole Polarons Using Density-Corrected DFT

Bhaskar Rana, Marc P. Coons, John M. Herbert

2022The Journal of Physical Chemistry Letters28 citationsDOI

Abstract

Modeling polaron defects is an important aspect of computational materials science, but the description of unpaired spins in density functional theory (DFT) often suffers from delocalization error. To diagnose and correct the overdelocalization of spin defects, we report an implementation of density-corrected (DC-)DFT and its analytic energy gradient. In DC-DFT, an exchange-correlation functional is evaluated using a Hartree-Fock density, thus incorporating electron correlation while avoiding self-interaction error. Results for an electron polaron in models of titania and a hole polaron in Al-doped silica demonstrate that geometry optimization with semilocal functionals drives significant structural distortion, including the elongation of several bonds, such that subsequent single-point calculations with hybrid functionals fail to afford a localized defect even in cases where geometry optimization with the hybrid functional does localize the polaron. This has significant implications for traditional workflows in computational materials science, where semilocal functionals are often used for structure relaxation. DC-DFT calculations provide a mechanism to detect situations where delocalization error is likely to affect the results.

Topics & Concepts

PolaronDensity functional theoryDelocalized electronHybrid functionalSpinsRelaxation (psychology)ElectronUnpaired electronStatistical physicsPhysicsCondensed matter physicsComputational chemistryMaterials scienceMolecular physicsChemistryQuantum mechanicsPsychologySocial psychologyAdvanced Condensed Matter PhysicsElectronic and Structural Properties of OxidesMagnetic and transport properties of perovskites and related materials
Detection and Correction of Delocalization Errors for Electron and Hole Polarons Using Density-Corrected DFT | Litcius