# Assessing the performance of self-consistent hybrid functional for band   gap calculation in oxide semiconductors

**Authors:** Jiangang He, Cesare Franchini

arXiv: 1706.08159 · 2017-11-22

## TL;DR

This study evaluates the self-consistent hybrid functional scPBE0 for calculating band gaps in oxide semiconductors, showing it outperforms some existing methods but has limitations in certain cases.

## Contribution

It introduces a self-consistent procedure for determining the mixing parameter in hybrid functionals and assesses its accuracy across diverse oxide semiconductors.

## Key findings

- scPBE0 provides better band gap predictions than PBE0 and HSE06.
- Mean absolute percentage error for band gaps is 14%.
- Overestimates gaps in materials with weak dielectric screening.

## Abstract

In this paper we assess the predictive power of the self-consistent hybrid functional scPBE0 in calculating the band gap of oxide semiconductors. The computational procedure is based on the self-consistent evaluation of the mixing parameter $\alpha$ by means of an iterative calculation of the static dielectric constant using the perturbation expansion after discretization (PEAD) method and making use of the relation $\alpha = 1/\epsilon_{\infty}$. Our materials dataset is formed by 30 compounds covering a wide range of band gaps and dielectric properties, and includes materials with a wide spectrum of application as thermoelectrics, photocatalysis, photovoltaics, transparent conducting oxides, and refractory materials. Our results show that the scPBE0 functional provides better band gaps than the non self-consistent hybrids PBE0 and HSE06, but scPBE0 does not show significant improvement on the description of the static dielectric constants. Overall, the scPBE0 data exhibit a mean absolute percentage error of 14 \% (band gaps) and 10 \% ($\epsilon_\infty$). For materials with weak dielectric screening and large excitonic biding energies scPBE0, unlike PBE0 and HSE06, overestimates the band gaps, but the value of the gap become very close to the experimental value when excitonic effects are included (e.g. for SiO$_2$). However, special caution must be given to the compounds with small band gaps due to the tendency of scPBE0 to overestimate the dielectric constant in proximity of the metallic limit.

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/1706.08159/full.md

## References

114 references — full list in the complete paper: https://tomesphere.com/paper/1706.08159/full.md

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Source: https://tomesphere.com/paper/1706.08159