On the role of the imide axial ligand in the spin and oxidation state of Mn corrole and corrolazine complexes

Rosa Caballol; Gerard Alcover; Kristin Pierloot; Coen de Graaf

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On the role of the imide axial ligand in the spin and oxidation state of Mn corrole and corrolazine complexes - PC:1524

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https://hdl.handle.net/20.500.11797/PC1524

URV's Author/s:	CABALLOL LORENZO, ROSA; Gerard Alcover; Kristin Pierloot; DE GRAAF ., CORNELIS
Author, as appears in the article.:	Rosa Caballol; Gerard Alcover; Kristin Pierloot; Coen de Graaf
Author identifier:	n/a; n/a; n/a; 0000-0001-8114-6658
Journal publication year:	2016
Publication Type:	Article
ISSN:	0020-1669
Abstract:	Electronic structure calculations have been performed on four different Mn corrole and corrolazine complexes to clarify the role of the imide axial ligand on the relative stability of the different spin states and the stabilization of the high valent Mn ion in these complexes. Multiconfigurational perturbation theory energy calculations on the DFT optimized geometries shows that all complexes have a singlet ground state except the complex with the strongest electron withdrawing substituent on the imide axial ligand, which is found to have a triplet ground state. The analysis of the sigma and pi interaction between metal and imide ligand shows that this spin crossover is caused by a subtle interplay of geometrical factors (Mn-N distance and coordination angle) and the electron withdrawing character of the substituent on the imide, which reduces the electron donation to the metal centre. The analysis of the multiconfigurational wave functions reveals that the formally MnV ion is stabilized by an important electron transfer from both the equatorial corrole/corrolazine ligand and the axial imide. The macrocycle donates roughly half an electron, being somewhere between the closed-shell trianionic and the dianionic radical form. The imide ligand transfers 2.5 electrons to the metal center, resulting in an effective d-electron count close to five in all complexes.
Article's DOI:	10.1021/acs.inorgchem.6b00194
Link to the original source:	https://pubs.acs.org/doi/10.1021/acs.inorgchem.6b00194
Papper version:	info:eu-repo/semantics/acceptedVersion
licence for use:	https://creativecommons.org/licenses/by/3.0/es/
Department:	Química Física i Inorgànica
Research group:	Química Quàntica
Licence document URL:	https://repositori.urv.cat/ca/proteccio-de-dades/
Thematic Areas:	Chemistry
Keywords:	transition-metal complexes electronic structure Inorganic Chemistry
Entity:	Universitat Rovira i Virgili
Record's date:	2016-04-28

Description:	Electronic structure calculations have been performed on four different Mn corrole and corrolazine complexes to clarify the role of the imide axial ligand on the relative stability of the different spin states and the stabilization of the high valent Mn ion in these complexes. Multiconfigurational perturbation theory energy calculations on the DFT optimized geometries shows that all complexes have a singlet ground state except the complex with the strongest electron withdrawing substituent on the imide axial ligand, which is found to have a triplet ground state. The analysis of the sigma and pi interaction between metal and imide ligand shows that this spin crossover is caused by a subtle interplay of geometrical factors (Mn-N distance and coordination angle) and the electron withdrawing character of the substituent on the imide, which reduces the electron donation to the metal centre. The analysis of the multiconfigurational wave functions reveals that the formally MnV ion is stabilized by an important electron transfer from both the equatorial corrole/corrolazine ligand and the axial imide. The macrocycle donates roughly half an electron, being somewhere between the closed-shell trianionic and the dianionic radical form. The imide ligand transfers 2.5 electrons to the metal center, resulting in an effective d-electron count close to five in all complexes.
Coverage:	Anglès
Type:	post-print Article Artículo Article info:eu-repo/semantics/acceptedVersion
Contributor:	Química Quàntica Química Física i Inorgànica Universitat Rovira i Virgili
Títol:	On the role of the imide axial ligand in the spin and oxidation state of Mn corrole and corrolazine complexes
Subject:	Complexos metàl·lics de transició Estructura electrònica Química inorgànica transition-metal complexes electronic structure Inorganic Chemistry Chemistry Química Química 0020-1669
Date:	2016
Format:	1520 kb
Creator:	Rosa Caballol Gerard Alcover Kristin Pierloot Coen de Graaf
Rights:	info:eu-repo/semantics/openAccess

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