The thermal dehydration processes of 4-aminopyridinium (1,2-dithiooxalato-S,S’)metalate (II) dihydrate (M = Ni, Pd and Pt) have been studied under inert (Ar) and oxidative (Ar + O-2) atmospheres by thermogravimetric (TG,DTG and DTA) and DSC techniques and using non-isothermal conditions. The kinetic analysis of the dehydration curves has been performed applying 21 different rate law expressions for theoretical solid-state models (nucleation, growth, nucleation-growth and diffusion); In both atmospheres, the best fits correspond to random nucleation rate laws. The activation energies obtained are 89.6 kJ mol(-1) for the Ni compound, 94.1 kJ mol(-1) for the Pd compound and 85.1 kJ mol(-1) for the Pt compound in the oxidative atmosphere. In the inert atmosphere, the activation energy values are 101.5, 101.5 and 96.1 kJ mol(-1) for the Ni, Pd and Pt compounds, respectively. These values are in accord with the fact that the three compounds are isostructural. The DSC curves show sharp endothermic peaks for the dehydration processes of the three compounds in both atmospheres and the dehydration enthalpies were computed from them.