Chiral, Heterometallic Lanthanide–Transition Metal Complexes by Design

Achieving control over coordination geometries in lanthanide complexes remains a challenge to the coordination chemist. This is particularly the case in the field of molecule-based magnetism, where barriers for magnetic relaxation processes as well as tunneling pathways are strongly influenced by th...

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Published in:	Inorganics Vol. 6; no. 3; p. 72
Main Authors:	Øwre, Anders, Vinum, Morten, Kern, Michal, Van Slageren, Joris, Bendix, Jesper, Perfetti, Mauro
Format:	Journal Article
Language:	English
Published:	Basel MDPI AG 01.09.2018
Subjects:	anisotropy Antiferromagnetism Chromium Coordination compounds Coupling Crystallography Electronic structure Ferromagnetism Fluorides Gadolinium geometric design Lanthanides Ligands magnetic coupling Magnetic induction Magnetic measurement Magnetic properties Magnetic relaxation Magnetism Molecular structure Organic chemistry Polymorphism Spectroscopy Symmetry Transition metal compounds transition metals Germany
ISSN:	2304-6740, 2304-6740
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Abstract	Achieving control over coordination geometries in lanthanide complexes remains a challenge to the coordination chemist. This is particularly the case in the field of molecule-based magnetism, where barriers for magnetic relaxation processes as well as tunneling pathways are strongly influenced by the lanthanide coordination geometry. Addressing the challenge of design of 4f-element coordination environments, the ubiquitous Ln(hfac)3 moieties have been shown to be applicable as Lewis acids coordinating transition metal acetylacetonates facially leading to simple, chiral lanthanide–transition metal heterodinuclear complexes. The broad scope of this approach is illustrated by the synthesis of a range of such complexes LnM: LnM(hfac)3(μ2-acac-O,O,O′)3 (Ln = La, Pr, Gd; M = Cr, Fe, Ga), with approximate three-fold symmetry. The complexes have been crystallographically characterized and exhibit polymorphism for some combinations of 4f and 3d metal centers. However, an isostructural set of systems spanning several lanthanides which exhibit spontaneous resolution in the orthorhombic Sohncke space group P212121 is presented here. The electronic structure and ensuing magnetic properties have been studied by EPR spectroscopy and magnetometry. The GdFe, PrFe, and PrCr complexes exhibit ferromagnetic coupling, while GdCr exhibits antiferromagnetic coupling. GdGa exhibits slow relaxation of the magnetization in applied static fields.
AbstractList	Achieving control over coordination geometries in lanthanide complexes remains a challenge to the coordination chemist. This is particularly the case in the field of molecule-based magnetism, where barriers for magnetic relaxation processes as well as tunneling pathways are strongly influenced by the lanthanide coordination geometry. Addressing the challenge of design of 4f-element coordination environments, the ubiquitous Ln(hfac)3 moieties have been shown to be applicable as Lewis acids coordinating transition metal acetylacetonates facially leading to simple, chiral lanthanide–transition metal heterodinuclear complexes. The broad scope of this approach is illustrated by the synthesis of a range of such complexes LnM: LnM(hfac)3(μ2-acac-O,O,O′)3 (Ln = La, Pr, Gd; M = Cr, Fe, Ga), with approximate three-fold symmetry. The complexes have been crystallographically characterized and exhibit polymorphism for some combinations of 4f and 3d metal centers. However, an isostructural set of systems spanning several lanthanides which exhibit spontaneous resolution in the orthorhombic Sohncke space group P212121 is presented here. The electronic structure and ensuing magnetic properties have been studied by EPR spectroscopy and magnetometry. The GdFe, PrFe, and PrCr complexes exhibit ferromagnetic coupling, while GdCr exhibits antiferromagnetic coupling. GdGa exhibits slow relaxation of the magnetization in applied static fields.
Author	Van Slageren, Joris Bendix, Jesper Kern, Michal Perfetti, Mauro Øwre, Anders Vinum, Morten
Author_xml	– sequence: 1 givenname: Anders surname: Øwre fullname: Øwre, Anders – sequence: 2 givenname: Morten surname: Vinum fullname: Vinum, Morten – sequence: 3 givenname: Michal orcidid: 0000-0001-9376-4568 surname: Kern fullname: Kern, Michal – sequence: 4 givenname: Joris orcidid: 0000-0002-0855-8960 surname: Van Slageren fullname: Van Slageren, Joris – sequence: 5 givenname: Jesper orcidid: 0000-0003-1255-2868 surname: Bendix fullname: Bendix, Jesper – sequence: 6 givenname: Mauro orcidid: 0000-0001-5649-0449 surname: Perfetti fullname: Perfetti, Mauro
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Snippet	Achieving control over coordination geometries in lanthanide complexes remains a challenge to the coordination chemist. This is particularly the case in the...
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SubjectTerms	anisotropy Antiferromagnetism Chromium Coordination compounds Coupling Crystallography Electronic structure Ferromagnetism Fluorides Gadolinium geometric design Lanthanides Ligands magnetic coupling Magnetic induction Magnetic measurement Magnetic properties Magnetic relaxation Magnetism Molecular structure Organic chemistry Polymorphism Spectroscopy Symmetry Transition metal compounds transition metals
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Title	Chiral, Heterometallic Lanthanide–Transition Metal Complexes by Design
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