Issue 3, 2016

Theoretical modeling of the L2,3-edge X-ray absorption spectra of Mn(acac)2 and Co(acac)2 complexes

Abstract

Mn(acac)2 (I) and Co(acac)2 (II) L2,3-edge absorption spectra have been modeled using the DFT/ROCIS method. In addition to the agreement between experiment and theory, the combined use of the B3LYP exchange–correlation functional and the def2-TZVP(-f) basis set provided useful information about the coordinative geometry around the M(II) ions as well as about the nature and the strength of the Mn–O and Co–O interaction. The lower excitation energy (EE) side of both I/IIL3 and I/IIL2 intensity distributions mainly includes states having ground state spin multiplicity (S = 5/2 in I and S = 3/2 in II), whereas states with lower spin multiplicity (S = 3/2 in I and S = 1/2 in II) significantly contribute to the higher EE side of both I/IIL3 and I/IIL2. Hence, the occurrence of states involving metal to ligand charge transfer transitions in the presence of ligands with low lying empty π* orbitals on the L3 and L2 higher EE sides is herein confirmed.

Graphical abstract: Theoretical modeling of the L2,3-edge X-ray absorption spectra of Mn(acac)2 and Co(acac)2 complexes

Supplementary files

Article information

Article type
Paper
Submitted
09 Nov 2015
Accepted
07 Dec 2015
First published
07 Dec 2015

Phys. Chem. Chem. Phys., 2016,18, 2242-2249

Author version available

Theoretical modeling of the L2,3-edge X-ray absorption spectra of Mn(acac)2 and Co(acac)2 complexes

S. Carlotto, M. Sambi, A. Vittadini and M. Casarin, Phys. Chem. Chem. Phys., 2016, 18, 2242 DOI: 10.1039/C5CP06844D

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