Abstract:Thermodynamics for chemical vapor synthesis (CVS) of Nb nanopowder in NbCl₅-H₂-Ar system was investigated by using FactSage software. The validation experiments were conducted to confirm the thermodynamics points. The results indicate that under the atmospheric pressure, the reduction approach from NbCl₅(g) to Nb(s) is a stage-wise process with the formation of complex sub-chlorides, and is controllable at low hydrogen ratio (mole ratio of n(NbCl₅):n(H₂)<1:180) and low temperature (<1050 °C). Furthermore, a reasonable amount of inert loading gas is favorable to increase the reduction ratio of NbCl₅ and the powder yield. The as-synthesized Nb nanopowder with the homogeneous size of 30-50 nm and the powder yield of 85% (mass fraction) is obtained by the CVS process under n(NbCl₅):n(H₂):n(Ar)=1:120:1 and 950 °C with the NbCl₅ reduction rate of 96.1%.

Key words: NbCl₅-H₂-Ar system; chemical vapor synthesis (CVS); thermodynamic; niobium nanopowder; FactSage software