Calculations of point defect energetics with Density Functional Theory (DFT) can provide valuable insight into several optoelectronic, thermodynamic, and kinetic properties. These calculations commonly use methods ranging from semi-local functionals with a-posteriori corrections to more computationally intensive hybrid functional approaches. For applications of DFT-based high-throughput computation for data-driven materials discovery, point defect properties are of interest, yet are currently excluded from available materials databases. This work presents a benchmark analysis of automated, semi-local point defect calculations with a-posteriori corrections, compared to 245 “gold standard” hybrid calculations previously published. We consider...
We investigate the relationships between electron-density and electronic-energy errors produced by m...
Impurities and defects frequently govern materials properties, with the most prominent example being...
ABSTRACT: Density-corrected DFT is a method that cures several failures of self-consistent semilocal...
Calculations of point defect energetics with Density Functional Theory (DFT) can provide valuable in...
Atomic scale imperfections, know as point defects, dictate the performance and efficiency of many mo...
We propose a powerful scheme to accurately determine the formation energy and thermodynamic charge t...
Reliable calculations of defect properties may be obtained with density functional theory using the ...
Nearly quantitative agreement between density functional theory (DFT) and diffusion Monte Carlo (DMC...
Defects influence the properties and functionality of all crystalline materials. For instance, point...
A new method to correct formation energies of charged defects obtained by supercell densityfunctiona...
a b s t r a c t The use of high-throughput density functional theory (DFT) calculations to screen fo...
Density-functional theory (DFT) predictions of materials properties are becoming ever more widesprea...
Using the DFT supercell method, the BZ sampling error in the formation energy and atomic structure a...
Density-functional theory combined with periodic boundary conditions is used to systematically study...
peer reviewedDuring the past two decades, density-functional (DF) theory has evolved from niche appl...
We investigate the relationships between electron-density and electronic-energy errors produced by m...
Impurities and defects frequently govern materials properties, with the most prominent example being...
ABSTRACT: Density-corrected DFT is a method that cures several failures of self-consistent semilocal...
Calculations of point defect energetics with Density Functional Theory (DFT) can provide valuable in...
Atomic scale imperfections, know as point defects, dictate the performance and efficiency of many mo...
We propose a powerful scheme to accurately determine the formation energy and thermodynamic charge t...
Reliable calculations of defect properties may be obtained with density functional theory using the ...
Nearly quantitative agreement between density functional theory (DFT) and diffusion Monte Carlo (DMC...
Defects influence the properties and functionality of all crystalline materials. For instance, point...
A new method to correct formation energies of charged defects obtained by supercell densityfunctiona...
a b s t r a c t The use of high-throughput density functional theory (DFT) calculations to screen fo...
Density-functional theory (DFT) predictions of materials properties are becoming ever more widesprea...
Using the DFT supercell method, the BZ sampling error in the formation energy and atomic structure a...
Density-functional theory combined with periodic boundary conditions is used to systematically study...
peer reviewedDuring the past two decades, density-functional (DF) theory has evolved from niche appl...
We investigate the relationships between electron-density and electronic-energy errors produced by m...
Impurities and defects frequently govern materials properties, with the most prominent example being...
ABSTRACT: Density-corrected DFT is a method that cures several failures of self-consistent semilocal...
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