Mariano Spivak scite author profile

Multiconfigurational electronic structure theory calculations including spin-orbit coupling effects were performed on four uranium-based single-molecule-magnets. Several quartet and doublet states were computed and the energy gaps between spin-orbit states were then used to determine magnetic susceptibility curves. Trends in experimental magnetic susceptibility curves were well reproduced by the calculations, and key factors affecting performance were identified.

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Improving the calculation of magnetic coupling constants in MRPT methods

Spivak

Angeli

Calzado

et al. 2014

J Comput Chem

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The magnetic coupling in transition metal compounds with more than one unpaired electron per magnetic center has been studied with multiconfigurational perturbation theory. The usual shortcomings of these methodologies (severe underestimation of the magnetic coupling) have been overcome by describing the Slater determinants with a set of molecular orbitals that maximally resemble the natural orbitals of a high-level multiconfigurational reference configuration interaction calculation. These orbitals have significant delocalization tails onto the bridging ligands and largely increase the coupling strengths in the perturbative calculation.

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A multiconfigurational approach to the electronic structure of trichromium extended metal atom chains

et al. 2017

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Density functional theory, Complete Active Space Self-Consistent Field (CASSCF) and perturbation theory (CASPT2) methodologies have been used to explore the electronic structure of a series of trichromium Extended Metal Atom Chains (EMACS) with different capping ligands. The study is motivated by the very different structural properties of these systems observed in X-ray experiments: the CN-capped example has a symmetric Cr unit while for the NO-capped analogue the same unit has two very different Cr-Cr bond lengths. Density functional theory fails to locate an unsymmetric minimum for any of the systems studied, although the surface corresponding to the asymmetric stretch is very flat. CASPT2, in contrast, does locate an unsymmetric minimum only for the NO-capped system, although again the surface is very flat. We use the Generalized active space (GASSCF) technique and effective Hamiltonian theory to interrogate the multi-configurational wavefunctions of these systems, and show that the increase in the σ-σ* separation as the chain becomes unsymmetric plays a defining role in the stability of the ground state and its expansion in terms of configuration state functions.

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Structure and bonding in trimetallic arrays containing a Cr–Cr quadruple bond: A challenge to density functional theory

Arcisauskaite¹,

Spivak²,

McGrady³

2015

Inorganica Chimica Acta

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Mariano Spivak

Quantum Chemical Characterization of Single Molecule Magnets Based on Uranium

Improving the calculation of magnetic coupling constants in MRPT methods

A multiconfigurational approach to the electronic structure of trichromium extended metal atom chains

Structure and bonding in trimetallic arrays containing a Cr–Cr quadruple bond: A challenge to density functional theory

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