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Computational Assessment of MLCT versus MC Stabilities in First‐to‐Third‐Row d 6 Pseudo‐Octahedral Transition Metal Complexes
Author(s) -
Batlogg Aymerick,
Fumanal Maria
Publication year - 2019
Publication title -
journal of computational chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.907
H-Index - 188
eISSN - 1096-987X
pISSN - 0192-8651
DOI - 10.1002/jcc.26014
Subject(s) - time dependent density functional theory , excited state , density functional theory , chemistry , imidazole , transition metal , wave function , octahedron , ground state , computational chemistry , ligand (biochemistry) , atomic physics , crystallography , molecular physics , photochemistry , physics , stereochemistry , crystal structure , catalysis , biochemistry , receptor
An accurate modeling of metal‐to‐ligand‐charge‐transfer (MLCT) and metal‐centered (MC) excited state energies is key to predict the photoinduced response in transition metal complexes (TMCs). Herein, the importance of the ground state and excited state reference geometries is addressed for three‐prototype d 6 pseudo‐octahedral TMCs, each displaying a different potential energy landscape of MLCT versus MC relative stabilities. Several functionals are used within the time‐dependent density functional theory (TDDFT), as well as multireference wave‐function theory (MS‐CASPT2), applied to [Mn(im)(CO) 3 (phen)] + , [Ru(im) 2 (bpy) 2 ] 2+ , and [Re(im)(CO) 3 (phen)] + , (im: imidazole, bpy: bypiridine, phen: phenantroline). The results revel that TDDFT is robust except when using B3LYP functional for first‐row d 6 TMCs. In contrast, MS‐CASPT2 calculations are strongly biased in those cases with competitive MLCT/MC states. The results reinforce the reliability of B3LYP to describe the excited states in d 6 TMCs, but question the validity of assessing the density functional theory (DFT)/TDDFT performance via direct comparison with MS‐CASPT2 performed at the same DFT reference geometry as a standard strategy. © 2019 Wiley Periodicals, Inc.