Your search keyword '"Bolvin, Hélène"' showing total 3 results

1. A theoretical study of the excited states of AmO2n+, n=1,2,3.

Author

Notter, François-Paul, Dubillard, Sébastien, and Bolvin, Hélène

Subjects

EXCITED state chemistry, IONS, SELF-consistent field theory, PERTURBATION theory, WAVE functions, LIGAND field theory, ELECTRONS, CHARGE transfer

Abstract

The ground and excited states of the AmO2+, AmO22+, and AmO23+ ions have been studied using the four-component configuration interaction singles doubles, spin-orbit complete active space self-consistent field, and spin-orbit complete active space-order perturbation theory methods. The roles of scalar relativistic effects and spin-orbit coupling are analyzed; results with different methods are carefully compared by a precise analysis of the wave functions. A molecular spinor diagram is used in relation to the four-component calculations while a ligand field model is used for the two-step method. States with the same number of electrons in the four nonbonding orbitals are in very good agreement with the two methods while ligand field and charge transfer states do not have the same excitation energies. [ABSTRACT FROM AUTHOR]

Published

2008

2. Derivation of Lanthanide Series Crystal Field Parameters From First Principles.

Author

Jung, Julie, Islam, M. Ashraful, Pecoraro, Vincent L., Mallah, Talal, Berthon, Claude, and Bolvin, Hélène

Subjects

RARE earth metals, LIGAND field theory, MAGNETIC crystals, CRYSTAL field theory, MAGNETIC properties, CRYSTALS

Abstract

Two series of lanthanide complexes have been chosen to analyze trends in the magnetic properties and crystal field parameters (CFPs) along the two series: The highly symmetric LnZn16(picHA)16 series (Ln=Tb, Dy, Ho, Er, Yb; picHA=picolinohydroxamic acid) and the [Ln(dpa)3](C3H5N2)3⋅3H2O series (Ln=Ce–Yb; dpa=2,6‐dipicolinic acid) with approximate three‐fold symmetry. The first series presents a compressed coordination sphere of eight oxygen atoms whereas in the second series, the coordination sphere consists of an elongated coordination sphere formed of six oxygen atoms. The CFPs have been deduced from ab initio calculations using two methods: The AILFT (ab initio ligand field theory) method, in which the parameters are determined at the orbital level, and the ITO (irreducible tensor operator) decomposition, in which the problems are treated at the many‐electron level. It has been found that the CFPs are transferable from one derivative to another, within a given series, as a first approximation. The sign of the second‐order parameter B02 differs in the two series, reflecting the different environments. It has been found that the use of the strength parameter S allows for an easy comparison between complexes. Furthermore, in both series, the parameters have been found to decrease in magnitude along the series, and this decrease is attributed to covalent effects. [ABSTRACT FROM AUTHOR]

Published

2019

3. Structural and Electronic Dependence of the Single-Molecule-Magnet Behavior of Dysprosium(III) Complexes.

Author

Campbell, Victoria E., Bolvin, Hélène, Rivière, Eric, Guillot, Regis, Wernsdorfer, Wolfgang, and Mallah, Talal

Subjects

*SINGLE molecule magnets, *DYSPROSIUM compounds, *LIGANDS (Chemistry), *PYRIDINE, *IMINES, *MAGNETIZATION, *LIGAND field theory

Abstract

We investigate and compare the magnetic properties of two isostructural DyIII-containing complexes. The DyIII ions are chelated by hexadentate ligands and possess two apical bidendate nitrate anions. In dysprosium(III) N,N'-bis(imine-2-yl)methylene-1,8-diamino-3,6-dioxaoctane (1), the ligand's donor atoms are two alkoxo, two pyridine, and two imine nitrogen atoms. Dysprosium(III) N,N'-bis(amine-2-yl)methylene-1,8-diamino-3,6-dioxaoctane (2) is identical with 1 except for one modification: the two imine groups have been replaced by amine groups. This change has a minute effect on the structure and a larger effect the magnetic behavior. The two complexes possess slow relaxation of the magnetization in the presence of an applied field of 1000 Oe but with a larger barrier for reorientation of the magnetization for 1 (Ueff/kB = 50 K) than for 2 (Ueff/kB = 34 K). First-principles calculations using the spin-orbit complete active-space self-consistent-field method were performed and allowed to fit the experimental magnetization data. The calculations gave the energy spectrum of the 2J + 1 sublevels issued from the J = 15/2 free-ion ground state. The lowest-lying sublevels were found to have a large contribution of MJ = ±15/2 for 1, while for 2, MJ = ±13/2 was dominant. The observed differences were attributed to a synergistic effect between the electron density of the ligand and the small structural changes provoked by a slight alteration of the coordination environment. It was observed that the stronger ligand field (imine) resulted in complex 1 with a larger energy barrier for reorientation of the magnetization than 2. [ABSTRACT FROM AUTHOR]

Published

2014