The paper deals with the characterization of three hydrazinic complexes with Ni, Cu and Cr respectively, by means of non-isothermal
thermal methods, TG, DTG and DTA, under nitrogen atmosphere in order to investigate the structure-thermostability-thermal
degradation mechanism correlation. The thermal analysis made evident the degradation mechanisms characteristic of every sample
in accordance with the chemical structure. The quantitative analysis by TG-DTG afforded the estimation of the metal amount
in the complex on the basis of the resulting metallic oxide nature as well as of some aspects of the thermal degradation mechanism
supported by mass spectral measurements. The melting points given by DTA and confirmed by the Boetius method and the initial
temperatures of thermal degradation from TG-DTG-DTA afforded to ascertain the temperature range proper for using and storing
the complexes under study which show potential practical applications as drugs.