Density functional theory based embedding approaches for transition-metal complexes

Physical Chemistry Chemical Physics : PCCP
Moritz Bensberg, Johannes Neugebauer

Abstract

Transition metal species are commonly discussed by considering the metal atom embedded in a ligand environment. This apparently makes them interesting targets for modern embedding strategies based on Kohn-Sham density functional theory (DFT), which aim at modelling accurate predictions for large systems by combining different quantum chemical methods. In this perspective, we will focus on subsystem density functional theory and projection-based embedding. We review the developments in the field for transition metal species, demonstrate benefits, drawbacks and analyse error sources of the different strategies using the example of chromium hexacarbonyle, before giving a perspective where the field is currently heading.

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Citations

Jun 3, 2021·International Journal of Molecular Sciences·Xiaoyong Cao, Pu Tian

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Methods Mentioned

BETA
nuclear magnetic resonance

Software Mentioned

DLPNO
Serenity
WF
CCSD
Turbomole
in
DFT

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