Field‐Supported Single‐Molecule Magnets of Type [Co(bzimpy)X2]

Magnetic properties of pentacoordinate complexes of the type [Co(bzimpy)X2], X = Cl and Br, were investigated in DC and AC modes. The DC data shows sizeable zero‐field splitting for these complexes. The AC susceptibility data confirms slow magnetic relaxation at the applied DC field with two relaxat...

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Published in	European journal of inorganic chemistry Vol. 2017; no. 13; pp. 1915 - 1922
Main Authors	Rajnák, Cyril, Varga, Filip, Titiš, Ján, Moncoľ, Ján, Boča, Roman
Format	Journal Article
Language	English
Published	Weinheim Wiley Subscription Services, Inc 03.04.2017
Subjects	Channels Cobalt Magnetic fields Magnetic permeability Magnetic properties Magnetic relaxation Magnets Pentacoordinate complexes Relaxation time Single‐molecule magnets Splitting Structure elucidation
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Abstract	Magnetic properties of pentacoordinate complexes of the type [Co(bzimpy)X2], X = Cl and Br, were investigated in DC and AC modes. The DC data shows sizeable zero‐field splitting for these complexes. The AC susceptibility data confirms slow magnetic relaxation at the applied DC field with two relaxation channels. The low‐frequency relaxation time is as slow as τLF ≈ 0.1–0.3 s for the Cl and Br complexes at T = 1.9 K. Mononuclear pentacoordinate CoII complexes [Co(bzimpy)Cl2] and [Co(bzimpy)Br2] show a sizeable magnetic anisotropy. They display slow magnetic relaxation through two relaxation channels supported by the external magnetic field. The low‐frequency relaxation time is as slow as 0.1–0.3 s at T = 1.9 K.
AbstractList	Magnetic properties of pentacoordinate complexes of the type [Co(bzimpy)X2], X = Cl and Br, were investigated in DC and AC modes. The DC data shows sizeable zero-field splitting for these complexes. The AC susceptibility data confirms slow magnetic relaxation at the applied DC field with two relaxation channels. The low-frequency relaxation time is as slow as τLF [asymptotically =] 0.1-0.3 s for the Cl and Br complexes at T = 1.9 K. Magnetic properties of pentacoordinate complexes of the type [Co(bzimpy)X2], X = Cl and Br, were investigated in DC and AC modes. The DC data shows sizeable zero‐field splitting for these complexes. The AC susceptibility data confirms slow magnetic relaxation at the applied DC field with two relaxation channels. The low‐frequency relaxation time is as slow as τLF ≈ 0.1–0.3 s for the Cl and Br complexes at T = 1.9 K. Mononuclear pentacoordinate CoII complexes [Co(bzimpy)Cl2] and [Co(bzimpy)Br2] show a sizeable magnetic anisotropy. They display slow magnetic relaxation through two relaxation channels supported by the external magnetic field. The low‐frequency relaxation time is as slow as 0.1–0.3 s at T = 1.9 K. Magnetic properties of pentacoordinate complexes of the type [Co(bzimpy)X sub(2)], X = Cl and Br, were investigated in DC and AC modes. The DC data shows sizeable zero-field splitting for these complexes. The AC susceptibility data confirms slow magnetic relaxation at the applied DC field with two relaxation channels. The low-frequency relaxation time is as slow as tau sub(LF) approximately 0.1-0.3 s for the Cl and Br complexes at T = 1.9 K. Mononuclear pentacoordinate Co super(II) complexes [Co(bzimpy)Cl sub(2)] and [Co(bzimpy)Br sub(2)] show a sizeable magnetic anisotropy. They display slow magnetic relaxation through two relaxation channels supported by the external magnetic field. The low-frequency relaxation time is as slow as 0.1-0.3 s at T = 1.9 K. Magnetic properties of pentacoordinate complexes of the type [Co(bzimpy)X 2 ], X = Cl and Br, were investigated in DC and AC modes. The DC data shows sizeable zero‐field splitting for these complexes. The AC susceptibility data confirms slow magnetic relaxation at the applied DC field with two relaxation channels. The low‐frequency relaxation time is as slow as τ LF ≈ 0.1–0.3 s for the Cl and Br complexes at T = 1.9 K.
Author	Boča, Roman Varga, Filip Titiš, Ján Rajnák, Cyril Moncoľ, Ján
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Snippet	Magnetic properties of pentacoordinate complexes of the type [Co(bzimpy)X2], X = Cl and Br, were investigated in DC and AC modes. The DC data shows sizeable... Magnetic properties of pentacoordinate complexes of the type [Co(bzimpy)X 2 ], X = Cl and Br, were investigated in DC and AC modes. The DC data shows sizeable... Magnetic properties of pentacoordinate complexes of the type [Co(bzimpy)X sub(2)], X = Cl and Br, were investigated in DC and AC modes. The DC data shows...
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SubjectTerms	Channels Cobalt Magnetic fields Magnetic permeability Magnetic properties Magnetic relaxation Magnets Pentacoordinate complexes Relaxation time Single‐molecule magnets Splitting Structure elucidation
Title	Field‐Supported Single‐Molecule Magnets of Type [Co(bzimpy)X2]
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