The 3D coordination polymer [Fe(4ditz)(3)](PF6)(2)center dot solv consists of three interpenetrating infinite networks. There are cavities between iron atoms of different networks, which are partly filled with solvent molecules. With a change of the solvent used during synthesis from methanol to ethanol, the magnetic behavior of the materials changes. Both show an abrupt two-step spin crossover from low spin (S = 0) to high spin (S = 2) with the methanolate curve lying 7 K higher and showing a small hysteresis. Single crystal and powder diffraction studies show that they both have the same structure, but in powder form, the methanolate slowly loses methanol to finally leave about 0.075 MeOH/Fe. In comparison, the bigger ethanol remains at 0.25 EtOH/Fe. These results, in conjunction with thermodynamic data, strongly suggest that the differences in magnetic behavior are largely entropic in nature. Possible reasons for this are discussed.

Modification of spin crossover behavior through solvent assisted formation and solvent inclusion in a triply interpenetrating three-dimensional network / M. Bartel; A. Absmeier; G.N.L. Jameson; F. Werner; K. Kato; M. Takata; R. Boca; M. Hasegawa; K. Mereiter; A. Caneschi; W. Linert. - In: INORGANIC CHEMISTRY. - ISSN 0020-1669. - STAMPA. - 46:(2007), pp. 4220-4229. [10.1021/ic070173q]

Modification of spin crossover behavior through solvent assisted formation and solvent inclusion in a triply interpenetrating three-dimensional network

CANESCHI, ANDREA;
2007

Abstract

The 3D coordination polymer [Fe(4ditz)(3)](PF6)(2)center dot solv consists of three interpenetrating infinite networks. There are cavities between iron atoms of different networks, which are partly filled with solvent molecules. With a change of the solvent used during synthesis from methanol to ethanol, the magnetic behavior of the materials changes. Both show an abrupt two-step spin crossover from low spin (S = 0) to high spin (S = 2) with the methanolate curve lying 7 K higher and showing a small hysteresis. Single crystal and powder diffraction studies show that they both have the same structure, but in powder form, the methanolate slowly loses methanol to finally leave about 0.075 MeOH/Fe. In comparison, the bigger ethanol remains at 0.25 EtOH/Fe. These results, in conjunction with thermodynamic data, strongly suggest that the differences in magnetic behavior are largely entropic in nature. Possible reasons for this are discussed.
2007
46
4220
4229
M. Bartel; A. Absmeier; G.N.L. Jameson; F. Werner; K. Kato; M. Takata; R. Boca; M. Hasegawa; K. Mereiter; A. Caneschi; W. Linert
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/332539
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