Nickel ferrite NiFe2O4 (spinel) was prepared and characterized by several physicochemical methods, and its catalytic properties were investigated in the reforming of methane with CO2 to syngas. Nanoparticles were prepared by coprecipitation (CP), hydrothermal synthesis (HT) and sol-gel process (SG). The methods of preparation influenced strongly the textural and structural properties, as well as their reactivity. X-ray diffraction patterns showed that only HT and SG methods delivered pure NiFe2O4 nanoparticles (6-10 nm size). However the cell parameter a calculated by Rietveld analysis being respectively larger (HT) or smaller (SG) than the standard value, a non stoichiometric defective mixed spinel could have been formed. The reducibility of samples was studied by two methods. H-2-temperature programmed reduction showed the formation of Ni-0 at increased temperature along SG approximate to HT < CP series, after which step NixFe2-xO4 decomposed to iron suboxides and finally to Fe-0. In situ reduction by H-2 carried out by HT-XRD showed that the ultimate compound was gamma-NixFe1-x alloy, formed above 400 (SG, HT) or 450 degrees C (CP). The catalytic activity in the dry reforming of methane was higher with HT and SG than with CP, but values of conversion of CH4 and CO2 were low as compared with efficient catalysts in the literature. After being pre-reduced by hydrogen at 400 degrees C, a large improvement was observed with SG sample only, in which case the conversions of methane and CO2 at 800 degrees C amounted to 80 and 93 mol%, respectively, with H-2/CO = 1.2. (C) 2012 Elsevier B. V. All rights reserved.