Back to Search Start Over

Recommendation of Orbitals for G0W0Calculations on Molecules and Crystals

Authors :
Zhang, Linyao
Shu, Yinan
Xing, Chang
Chen, Xiye
Sun, Shaozeng
Huang, Yudong
Truhlar, Donald G.
Source :
Journal of Chemical Theory and Computation; June 2022, Vol. 18 Issue: 6 p3523-3537, 15p
Publication Year :
2022

Abstract

The many-body GWapproximation, especially the G0W0method, has been widely used for condensed matter and molecules to calculate quasiparticle energies for ionization, electron attachment, and band gaps. Because G0W0calculations are well-known to have a strong dependence on the orbitals, the goal of the present work is to provide guidance on the choice of density functional used to generate orbitals and to recommend a choice that gives the most broadly accurate results. We have systematically investigated the dependence of G0W0calculations on the orbitals for 100 molecules and 8 crystals by considering orbitals obtained with a diverse set of Kohn–Sham (KS) and generalized KS (GKS) functionals (63 functionals plus Hartree–Fock). The percentage of Hartree–Fock exchange employed in density functionals has been found to have strong influence on the predicted molecular ionization energy and crystal fundamental band gaps (with optimum values between 40 and 56%), but to have less effect on predicting molecular electron affinities. The low cost of the Gaussian implementation, even with hybrid functionals in periodic calculations, the better performance of global hybrids as compared to range-separated hybrids of either than screened exchange or long-range-corrected type, and the relatively low cost of global-hybrid-functional periodic calculations using Gaussians means that one can employ global-hybrid functionals at a very reasonable cost and obtain more accurate band gaps of semiconductors than are obtained by the methods currently widely employed, namely local gradient approximations. We single out three global-hybrid functionals that give especially good results for both molecules (100 in the test set) and crystals (8 in the test set, for all of which our benchmark data are the proper band gap rather than an optical band gap uncorrected for exciton effects).

Details

Language :
English
ISSN :
15499618 and 15499626
Volume :
18
Issue :
6
Database :
Supplemental Index
Journal :
Journal of Chemical Theory and Computation
Publication Type :
Periodical
Accession number :
ejs59685717
Full Text :
https://doi.org/10.1021/acs.jctc.2c00242