Thermal decomposition and hydrogen reduction of ammonium thiomolybdate
s of formulas: (NH4)(2)[MoS4] (I), (NH4)(2)[Mo-2(S-2)(6)] 2H(2)O (II)
and (NH4)(2)[Mo3S(S-2)(6)] 1.85H(2)O (III), were investigated using th
ermogravimetric analysis (TGA), either in pure N-2 or in 10% H-2 in N-
2, and temperature-programmed reduction (TPR). The thiomolybdate compo
unds were characterized by several physicochemical techniques, includi
ng FTIR, PAS/FTIR, UV-visible spectroscopy, XRD and CHNS elemental ana
lyses. The decompositions of (I) and (II) proceed in a similar way ind
ependently of the type of gas phase, with production of MoS3. However,
the anion cluster of (III) is decomposed at lower temperatures in the
presence of H-2 The amorphous MoS3 compound is very sensitive to the
presence of H-2, which also lowers the onset of its decomposition. The
se results seem to support a model for the structure of MoS3 consistin
g of triangular Mo-3 cluster units, similar to those present in (III).
TPR could be used as a ''fingerprint'' technique for identification o
f the complexes, as they present strong differences in the shapes and
characteristic temperatures of the reductograms.