Supramolecular Ni(dmit) sub(2) salts with halopyridinium cations -development of multifunctional molecular conductors with the use of competing supramolecular interactions

Halopyridinium cations with multiple halogen and hydrogen bonding donor sites have been used as the counter ions for the Ni(dmit) sub(2) anion (dmit = 1,3-dithiole-2-thione-4,5-dithiolate). Because of the competing supramolecular interactions, such as halogen and hydrogen bondings, some of the Ni(dm...

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Veröffentlicht in:	CrystEngComm 2013-03, Vol.15 (16), p.3200-3211
Hauptverfasser:	Kosaka, Yosuke, Yamamoto, Hiroshi M, Tajima, Akiko, Nakao, Akiko, Cui, Hengbo, Kato, Reizo
Format:	Artikel
Sprache:	eng
Schlagworte:	Cations Conduction Halogens Hydrogen bonding Hydrostatics Magnetic permeability Mathematical analysis Physical properties
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creator	Kosaka, Yosuke Yamamoto, Hiroshi M Tajima, Akiko Nakao, Akiko Cui, Hengbo Kato, Reizo
description	Halopyridinium cations with multiple halogen and hydrogen bonding donor sites have been used as the counter ions for the Ni(dmit) sub(2) anion (dmit = 1,3-dithiole-2-thione-4,5-dithiolate). Because of the competing supramolecular interactions, such as halogen and hydrogen bondings, some of the Ni(dmit) sub(2) salts showed complicated structures with multiple functionality that originates from the intriguing molecular arrangements. In these multifunctional salts, Ni(dmit) sub(2) molecules play two roles, conducting and magnetic, depending on the molecular arrangement in the layers that they belong to. The physical properties of these salts have been examined by conductivity measurements, with or without hydrostatic/uniaxial pressure, as well as magnetic susceptibility and band calculations. By analysing the low temperature conductivity, it can be concluded that the itinerant electrons in the conducting layer have magnetic coupling with the localized spins in the magnetic layers to result in a Kondo singlet formation.
doi_str_mv	10.1039/c2ce26841h
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Because of the competing supramolecular interactions, such as halogen and hydrogen bondings, some of the Ni(dmit) sub(2) salts showed complicated structures with multiple functionality that originates from the intriguing molecular arrangements. In these multifunctional salts, Ni(dmit) sub(2) molecules play two roles, conducting and magnetic, depending on the molecular arrangement in the layers that they belong to. The physical properties of these salts have been examined by conductivity measurements, with or without hydrostatic/uniaxial pressure, as well as magnetic susceptibility and band calculations. 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source	Royal Society Of Chemistry Journals; Alma/SFX Local Collection
subjects	Cations Conduction Halogens Hydrogen bonding Hydrostatics Magnetic permeability Mathematical analysis Physical properties
title	Supramolecular Ni(dmit) sub(2) salts with halopyridinium cations -development of multifunctional molecular conductors with the use of competing supramolecular interactions
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