Preparation and Characterization of VO2 Nanopowders

Abstract

VO2 powders with sizes of <30 nm were successfully synthesized by pyrolysis of the precursor, [NH4]5[(VO)6(CO3)4(OH)9]·10H2O. The effects of various pyrolysis conditions on VO2 stoichiometries and crystal states were investigated in detail. The results of IR measurements show that for the stoichiometric VO2, from micro- to nanocrystals and to amorphous state, the absorptions shifted to lower wavenumbers, the numbers of bands decreased gradually, and the widths of the bands broadened. Moreover, the IR spectra of nanocrystals were obviously different from those of microcrystals and amorphism. In comparison with stoichiometric VO2 crystals, the IR absorptions of oxygen-rich VO2 crystals clearly were blue shift, and those of oxygen-deficient VO2 crystals lightly red shift. The heats and temperatures of phase transition from VO1.96 to VO2.07 were determined. The results indicate that the phase transition temperature of VO2.02 is 70.1°C and has the maximum phase transition heat.