Critical assessment of G0W0 calculations for 2D materials: the example of monolayer MoS2

Rodrigues Pela, Ronaldo; Vona, Cecilia; Lubeck, Sven; Alex, Ben; Gonzalez Oliva, Ignacio; Draxl, Claudia

doi:10.1038/s41524-024-01253-2

npj Comput Mater

2024

DOI: 10.1038/s41524-024-01253-2

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Critical assessment of G0W0 calculations for 2D materials: the example of monolayer MoS2

Ronaldo Rodrigues Pela,

Cecilia Vona,

Sven Lubeck

et al.

Abstract: Two-dimensional (2D) materials combine many fascinating properties that make them more interesting than their three-dimensional counterparts for a variety of applications. For example, 2D materials exhibit stronger electron-phonon and electron-hole interactions, and their energy gaps and effective carrier masses can be easily tuned. Surprisingly, published band gaps of several 2D materials obtained with the GW approach, the state-of-the-art in electronic-structure calculations, are quite scattered. The details… Show more

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Cited by 6 publications

References 151 publications

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A robust, simple, and efficient convergence workflow for GW calculations

Großmann,

Grunert,

Runge

2024

npj Comput Mater

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A robust, simple, and efficient convergence workflow for GW calculations in plane-wave-based codes is derived from more than 7000 GW calculations on a diverse dataset of 70 semiconducting and insulating solids divided into 60 bulk and 10 2D materials. The workflow can significantly accelerate material screening projects and high-precision single-system studies. Our method is based on two main results: The convergence of the two interdependent parameters in the numerical implementation of the dynamically screened Coulomb interaction W in a plane-wave basis set is accelerated by a ‘cheap first, expensive later’ coordinate search that maintains the same accuracy as a state-of-the-art convergence algorithm, but converges faster. In addition, we empirically establish the practical independence of the k-point grid and the aforementioned parameterization of W. Incorporating both results into one workflow dramatically speeds up convergence.

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A robust, simple, and efficient convergence workflow for GW calculations

Großmann,

Grunert,

Runge

2024

npj Comput Mater

View full text Add to dashboard Cite

show abstract

Excitations in layered materials from a non-empirical Wannier-localized optimally- tuned screened range-separated hybrid functional

Camarasa-Gómez,

Gant,

Ohad

et al. 2024

npj Comput Mater

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Solving multipole challenges in the GW100 benchmark enables precise low-scaling GW calculations

Schambeck,

Golze,

Wilhelm

2024

Phys. Rev. B

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Critical assessment of G0W0 calculations for 2D materials: the example of monolayer MoS2

Cited by 6 publications

References 151 publications

A robust, simple, and efficient convergence workflow for GW calculations

A robust, simple, and efficient convergence workflow for GW calculations

Excitations in layered materials from a non-empirical Wannier-localized optimally- tuned screened range-separated hybrid functional

Solving multipole challenges in the GW100 benchmark enables precise low-scaling GW calculations

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