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Systematic assessment of DFT methods for geometry optimization of mononuclear platinum-containing complexes

Louise M. Debefve, Christopher J. Pollock

2021Physical Chemistry Chemical Physics38 citationsDOIOpen Access PDF

Abstract

conditions. Such data, typically consisting of complex mixtures of species, often prove challenging to interpret, inviting the aid of chemical theory. DFT calculations in particular have proven successful at predicting structural and spectroscopic parameters of transition metal species, though a thorough investigation of how these methods perform for platinum-based complexes has yet to be undertaken. Herein, we evaluated the performance of geometry optimization for five commonly used functionals (BP86, PBE, B3LYP, PBE0, and TPSSh) in combination with various ligand basis sets, relativistic approximations, and solvation and dispersion models. We applied these DFT methods to a training set of 14 platinum-containing complexes with varying sizes, oxidation states, and number and type of ligands and determined that the best-performing method was the PBE0 functional together with the def2-TZVP basis set for the ligand atoms, the ZORA relativistic approximation, and solvation and dispersion corrections. The ability of this DFT methodology to accurately predict metrical parameters was confirmed using two case studies, most notably by comparing the DFT optimized geometry of a previously uncharacterized complex to newly collected EXAFS data, which showed excellent agreement.

Topics & Concepts

PlatinumCatalysisSolvationDensity functional theoryChemistryComputational chemistryDispersion (optics)Basis setLigand (biochemistry)Theoretical chemistryMoleculeChemical physicsPhysicsOrganic chemistryQuantum mechanicsReaction mechanismGreen chemistryBiochemistryReceptorMachine Learning in Materials ScienceAdvanced Chemical Physics StudiesAsymmetric Hydrogenation and Catalysis
Systematic assessment of DFT methods for geometry optimization of mononuclear platinum-containing complexes | Litcius