Your search keyword '"HAASNOOT JG"' showing total 2 results

1. Counterion effect on the spin-transition properties of the cation [Fe(btzx)3]2+ (btzx=m-Xylylenebis(tetrazole)).

Author

Quesada M, Prins F, Bill E, Kooijman H, Gamez P, Roubeau O, Spek AL, Haasnoot JG, and Reedijk J

Subjects

Cations, Magnetics, Models, Molecular, Spectroscopy, Mossbauer, Ferric Compounds chemistry, Tetrazoles chemistry

Abstract

The influence of the counteranion on the structure and the spin-transition properties of original 1D bis(tetrazole) Fe(II) systems, namely [Fe(btzx)(3)]X(2) (X=PF(6) (-) (1), CF(3)SO(3) (-) (2) and ClO(4) (-) (3); btzx=m-xylylenebis(tetrazole)) is studied. The X-ray crystal structures of compounds 1 and 2 are described in detail. These structures present a solvent molecule encapsulated within pockets formed by btzx ligands along the 1D coordination chains. Compound 2 is shown to be the first structurally characterised alternating HS-LS 1D spin-transition system (HS=high spin, LS=low spin). The magnetic susceptibility measurements of all three compounds are compared. The degree of completion and the transition temperature are both drastically influenced by the counterion used, while surprisingly, the cooperative nature of the transition is not affected by the choice of counterion. Compounds 1 and 2 are further studied by Mössbauer spectroscopy and their distinct LIESST properties are compared.

Published

2008

2. [Fe(mu-btzmp)2(btzmp)2](ClO4)2: a doubly-bridged 1D spin-transition bistetrazole-based polymer showing thermal hysteresis behaviour.

Author

Quesada M, Kooijman H, Gamez P, Sánchez Costa J, van Koningsbruggen PJ, Weinberger P, Reissner M, Spek AL, Haasnoot JG, and Reedijk J

Subjects

Crystallography, X-Ray, Magnetics, Models, Molecular, Perchlorates chemical synthesis, Perchlorates chemistry, Polymers chemical synthesis, Polymers chemistry, Propane chemical synthesis, Spectrophotometry, Ultraviolet, Spectroscopy, Mossbauer, Tetrazoles chemical synthesis, Ferric Compounds chemistry, Propane analogs & derivatives, Tetrazoles chemistry

Abstract

The reaction of btzmp (1,2-bis(tetrazol-1-yl)-2-methylpropane) with Fe(ClO4)2 generates a 1D polymeric species, [Fe(mu-btzmp)2(btzmp)2](ClO4)2, showing a steep spin transition (T(1/2) / =136 K and T(1/2) / =133 K) with a 3 K thermal hysteresis. The crystal structure at 100 and 200 K reveals that, in contrast to other bistetrazole based spin-transition systems such as [Fe(endi)3](BF4)2 and [Fe(btzp)3](ClO4)2, the present compound has only two ligands bridging the metallic centres, while the other two coordination positions are occupied by two mono-coordinated (non-bridging) btzmp ligands. This peculiarity confers an unprecedented crystal packing in the series of 1D bistetrazole based polymers. The change in spin state is accompanied by an order/disorder transition of the ClO4* counterion. A careful examination of the structural changes occurring upon the spin transition indicates that this order/disorder is most likely affected by the modification of the [tetrazole-centroid]-ND-Fe angle (which is typical of bistetrazole spin-transition materials). Apart from X-ray analysis, also magnetic susceptibility, Mössbauer and UV-vis spectroscopies have been used to characterise the HS and the LS states of [Fe(mu-btzmp)2(btzmp)2](ClO4)2.

Published

2007