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On the impact of multi-reference character of small transition metal compounds on their bond dissociation energies

Daniel Süß, Stefan E. Huber, Andreas Mauracher

2020The Journal of Chemical Physics20 citationsDOIOpen Access PDF

Abstract

Determining the multi-reference character of a molecular system and its impact on the limits within which its properties may be calculated accurately by different quantum chemical methods remains a difficult yet important task in computational chemistry. Especially, transition metal compounds continue to frequently provide a challenge to quantum chemists in this regard. In this work, we construct, analyze, and evaluate different computational protocols to determine the impact of the multi-reference character of transition metal compounds on their bond dissociation energies using a set of reference data for 60 diatomic molecules. We find that the fractional orbital density approach allows to determine two global indicators on a physically sound basis. These can subsequently be used to classify the assessed set of molecules with high accuracy into categories of systems for which their multi-reference character matters substantially for their bond dissociation energies and for which it does not. A comparison with earlier suggested thresholds for classification of molecular systems due to their multi-reference character suggests that our approaches yield substantially better performance.

Topics & Concepts

Diatomic moleculeDissociation (chemistry)Character (mathematics)Bond-dissociation energyMoleculeReference dataChemistryQuantum chemistryTransition metalQuantumComputer scienceComputational chemistryChemical physicsStatistical physicsPhysicsQuantum mechanicsPhysical chemistryData miningMathematicsCatalysisGeometryBiochemistrySupramolecular chemistryMachine Learning in Materials ScienceAdvanced Chemical Physics StudiesComputational Drug Discovery Methods
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