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Comparison of the accuracy of DFT methods for reactions with relevance to nitrogenase

Magne Torbjörnsson, Ulf Ryde

2021Electronic Structure13 citationsDOIOpen Access PDF

Abstract

Abstract We have studied the accuracy of 16 different density functional theory methods to reproduce experimental data for bond lengths, angles, vibrational frequencies, as well as enthalpies and entropies for the binding of N 2 , H 2 , CO and hydride ions to various transition-metal complexes (with Fe, Ni, Cr, Mo and W) with relation to nitrogenase. We show that generalized gradient approximation functionals give better structure-related parameters, whereas hybrid functionals often give better energies. However, the BLYP and B97D functionals seem to give reasonably accurate results for both types of properties. Geometries and entropies are converged with split-valence basis sets, but energies and vibrational frequencies (and therefore also thermal corrections) in general require a basis set of triple-zeta quality. Dispersion corrections are important to obtain accurate energies (contributing by up to 57 kJ mol −1 ), as well as structures.

Topics & Concepts

Basis setValence (chemistry)Basis (linear algebra)Density functional theoryBinding energyHydrideStandard enthalpy of formationThermodynamicsChemistryIonComputational chemistryMaterials sciencePhysicsAtomic physicsQuantum mechanicsMathematicsHydrogenGeometryAdvanced Chemical Physics StudiesAmmonia Synthesis and Nitrogen ReductionInorganic Chemistry and Materials
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