The effect of particle size on the high-spin (5T2) α low-spin (1A1) equilibrium in supported Fe(ppi)2(NCS)2

The transition temperature of [Fe@hen)z(NCS)z ] measured by susceptibility measurements in an applied tield of 1 T shifts by -0.11 f 0.04 K when the field is increased to 55 T. This shift is predicted on the basis of the known magnetic susceptibility and specific heat data.

Based on measurements of differential scanning calorimetry, the first-order character of the spin-state transition in Fe(bt),(NCS), is established (bt = 2,2'-bi-2-thiazoline). The transition arises at T, ' =180.9 K and T,l =171.2 K, and is characterized by AH = 9.55 kO.7 kJ mol-' and AS = 54.5 \*4 J

The Fe"(TRIM),(PhCO,) (ClO,) spin crossover complex (TRIM = 4'-(4-methylimidazole )-2'-(2"-methylimidazole) imidazole, PhCOr = C6H5C02) has been synthesized and investigated by Miissbauer spectroscopy and magnetic susceptibility measurements as a function of temperature. The spin conversion is gradu

The compounds M2FeSn& (M=Cu, Ag) represent, to our knowledge, the first example ofan iron(I1) high spin ('T2) -low spin ('A, ) transition in the spine1 lattice. Additionally, these compounds are one of the rare caSes where such a spin transition is observed for bivalent iron in an octahedral sulfur