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Accurate Nonempirical Range-Separated Hybrid van der Waals Density Functional for Complex Molecular Problems, Solids, and Surfaces

Vivekanand Shukla, Yang Jiao, Jung‐Hoon Lee, Elsebeth Schröder, Jeffrey B. Neaton, Per Hyldgaard

2022Physical Review X21 citationsDOIOpen Access PDF

Abstract

We introduce a new, general-purpose, range-separated hybrid van der Waals density functional termed vdW-DF2-ahbr within the nonempirical vdW-DF method [Hyldgaard, et al. J. Phys. Condens. Matter 32, 393001 (2020)]. It combines a correlation from vdW-DF2 with a screened Fock exchange that is fixed by a new model of exchange effects in the density-explicit vdW-DF-b86r or rev-vdW-DF2 functional [Hamada, Phys. Rev. B 89, 121103(R) ( The new vdW-DF2-ahbr prevents spurious exchange binding and has a small-density-gradient form set from many-body perturbation analysis. It is accurate for bulk as well as layered materials, and it systematically and significantly improves the performance of the present vdW-DFs for molecular problems. Importantly, vdW-DF2-ahbr also outperforms present-standard (dispersion-corrected) range-separated hybrids on a broad collection of noncovalent-interaction benchmark sets, while at the same time successfully mitigating the density-driven errors that often affect the description of molecular transition states and isomerization calculations. vdW-DF2-ahbr furthermore improves on state-of-the-art densityfunctional-theory approaches by succeeding at challenging problems. For example, it (1) correctly predicts both the substrate structure and the site preference for CO adsorption on Pt(111), (2) it outperforms existing nonempirical vdW-DFs for the description of CO 2 adsorption in both a functionalized and in a simple metalorganic framework, and (3) it is highly accurate for the set of base-pair interactions in a model of DNA assembly.

Topics & Concepts

van der Waals forceDensity functional theoryVan der Waals surfaceRange (aeronautics)PhysicsStatistical physicsChemical physicsQuantum mechanicsVan der Waals radiusMaterials scienceMoleculeComposite materialGraphene research and applicationsQuantum, superfluid, helium dynamics2D Materials and Applications
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