$Polarized Neutron Diffraction to Probe Local Magnetic Anisotropy of a Low-Spin Fe(III) Complex$

Polarized Neutron Diffraction to Probe Local Magnetic Anisotropy of a Low-Spin Fe(III) Complex

We have determined by polarized neutron diffraction (PND) the low‐temperature molecular magnetic susceptibility tensor of the anisotropic low‐spin complex PPh4[FeIII(Tp)(CN)3]⋅H2O. We found the existence of a pronounced molecular easy magnetization axis, almost parallel to the C3 pseudo‐axis of the...

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Veröffentlicht in:	Angewandte Chemie International Edition 2016-03, Vol.55 (12), p.3963-3967
Hauptverfasser:	Ridier, Karl, Mondal, Abhishake, Boilleau, Corentin, Cador, Olivier, Gillon, Béatrice, Chaboussant, Grégory, Le Guennic, Boris, Costuas, Karine, Lescouëzec, Rodrigue
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Schlagworte:	Anisotropy Chemical Sciences Coherence Coordination chemistry Correlation density functional calculations Diffraction Electron paramagnetic resonance Electron spin Elongation EPR spectroscopy Iron Magnetic anisotropy Magnetic permeability Magnetic resonance Magnetic susceptibility Magnetization Mathematical analysis molecular magnetism Neutron diffraction Neutrons polarized neutron diffraction Resonance Spectroscopy Temperature effects Tensors
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creator	Ridier, Karl Mondal, Abhishake Boilleau, Corentin Cador, Olivier Gillon, Béatrice Chaboussant, Grégory Le Guennic, Boris Costuas, Karine Lescouëzec, Rodrigue
description	We have determined by polarized neutron diffraction (PND) the low‐temperature molecular magnetic susceptibility tensor of the anisotropic low‐spin complex PPh4[FeIII(Tp)(CN)3]⋅H2O. We found the existence of a pronounced molecular easy magnetization axis, almost parallel to the C3 pseudo‐axis of the molecule, which also corresponds to a trigonal elongation direction of the octahedral coordination sphere of the FeIII ion. The PND results are coherent with electron paramagnetic resonance (EPR) spectroscopy, magnetometry, and ab initio investigations. Through this particular example, we demonstrate the capabilities of PND to provide a unique, direct, and straightforward picture of the magnetic anisotropy and susceptibility tensors, offering a clear‐cut way to establish magneto‐structural correlations in paramagnetic molecular complexes. Molecular Magnetism: The low‐temperature molecular magnetic susceptibility tensor of the anisotropic low‐spin [FeIII(Tp)(CN)3]− complex (Tp=tris(pyrazolyl)borate; see picture) was determined by polarized neutron diffraction (PND). PND provided a unique, direct, and straightforward picture of the magnetic anisotropy and susceptibility tensors.
doi_str_mv	10.1002/anie.201511354
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Chem. Int. Ed</addtitle><description>We have determined by polarized neutron diffraction (PND) the low‐temperature molecular magnetic susceptibility tensor of the anisotropic low‐spin complex PPh4[FeIII(Tp)(CN)3]⋅H2O. We found the existence of a pronounced molecular easy magnetization axis, almost parallel to the C3 pseudo‐axis of the molecule, which also corresponds to a trigonal elongation direction of the octahedral coordination sphere of the FeIII ion. The PND results are coherent with electron paramagnetic resonance (EPR) spectroscopy, magnetometry, and ab initio investigations. Through this particular example, we demonstrate the capabilities of PND to provide a unique, direct, and straightforward picture of the magnetic anisotropy and susceptibility tensors, offering a clear‐cut way to establish magneto‐structural correlations in paramagnetic molecular complexes. 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Chem. Int. Ed</addtitle><date>2016-03-14</date><risdate>2016</risdate><volume>55</volume><issue>12</issue><spage>3963</spage><epage>3967</epage><pages>3963-3967</pages><issn>1433-7851</issn><eissn>1521-3773</eissn><coden>ACIEAY</coden><abstract>We have determined by polarized neutron diffraction (PND) the low‐temperature molecular magnetic susceptibility tensor of the anisotropic low‐spin complex PPh4[FeIII(Tp)(CN)3]⋅H2O. We found the existence of a pronounced molecular easy magnetization axis, almost parallel to the C3 pseudo‐axis of the molecule, which also corresponds to a trigonal elongation direction of the octahedral coordination sphere of the FeIII ion. The PND results are coherent with electron paramagnetic resonance (EPR) spectroscopy, magnetometry, and ab initio investigations. 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subjects	Anisotropy Chemical Sciences Coherence Coordination chemistry Correlation density functional calculations Diffraction Electron paramagnetic resonance Electron spin Elongation EPR spectroscopy Iron Magnetic anisotropy Magnetic permeability Magnetic resonance Magnetic susceptibility Magnetization Mathematical analysis molecular magnetism Neutron diffraction Neutrons polarized neutron diffraction Resonance Spectroscopy Temperature effects Tensors
title	Polarized Neutron Diffraction to Probe Local Magnetic Anisotropy of a Low-Spin Fe(III) Complex
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