Mireia Via-Nadal scite author profile

A systematic study of the performance of several density functional methodologies to study spin-crossover (SCO) on first row transition metal complexes is reported. All functionals have been tested against several mononuclear systems containing first row transition metal complexes and exhibiting spin-crossover. Among the tested functionals, the hybrid meta-GGA functional TPSSh with a triple-z basis set including polarization functions on all atoms provides with the best results across different metals and oxidation states, and its performance in both predicting the correct ground state and the right energy window for SCO to occur is quite satisfactory. The effect of some additional contributions, such as zeropoint energies, relativistic effects and intramolecular dispersion interactions, has been analyzed. The reported strategy thus expands the use of the TPSSh functional to other metals and oxidation states other than Fe II , making it the method of choice to study SCO in first row transition metal complexes. Additionally, the presented results validate the potential use of the TPSSh functional for virtual screening of new molecules with SCO, or its use in the study of the electronic structure of such systems.

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Comprehensive benchmarking of density matrix functional approximations

Rodríguez‐Mayorga

Ramos‐Cordoba

Via-Nadal

et al. 2017

Phys. Chem. Chem. Phys.

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The energy usually serves as a yardstick in assessing the performance of approximate methods in computational chemistry. After all, these methods are mostly used for the calculation of the electronic energy of chemical systems. However, computational methods should be also aimed at reproducing other properties, such strategy leading to more robust approximations with a wider range of applicability. In this study, we suggest a battery of ten tests with the aim to analyze density matrix functional approximations (DMFAs), including several properties that the exact functional should satisfy. The tests are performed on a model system with varying electron correlation, carrying a very small computational effort. Our results not only put forward a complete and exhaustive benchmark test for DMFAs, currently lacking, but also reveal serious deficiencies of existing approximations that lead to important clues in the construction of more robust DMFAs.

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Singling Out Dynamic and Nondynamic Correlation

Via-Nadal

Rodríguez‐Mayorga

Ramos‐Cordoba

et al. 2019

J. Phys. Chem. Lett.

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The correlation part of the pair density is separated into two components, one of them being predominant at short electronic ranges and the other at long ranges. The analysis of the intracular part of these components permits to classify molecular systems according to the prevailing correlation: dynamic or nondynamic. The study of the long-range asymptotics reveals the key component of the pair density that is responsible for the description of London dispersion forces and a universal decay with the interelectronic distance. The natural rangeseparation, the identification of the dispersion forces and the kind of predominant correlation type that arise from this analysis are expected to be important assets in the development of new electronic structure methods in wavefunction, density and reduced density-matrix functional theories.

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Mireia Via-Nadal

Benchmarking Density Functional Methods for Calculation of State Energies of First Row Spin-Crossover Molecules

Comprehensive benchmarking of density matrix functional approximations

Singling Out Dynamic and Nondynamic Correlation

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