Chemical vapour deposition of molybdenum carbides: aspects of phase stability

Abstract

Thin films of different molybdenum carbides ( δ-MoC 1− x , γ′-MoC 1− x and Mo 2C) have been deposited from a gas mixture of MoCl 5/H 2/C 2H 4 at 800°C by CVD. The H 2 content in the vapour has a strong influence on the phase composition and microstructure. Typically, high H 2 contents lead to the formation of nanocrystalline δ-MoC 1− x films while coarse-grained γ′-MoC 1− x is formed with an H 2-free gas mixture. This phase has previously only been synthesized by carburization of Mo in a CO atmosphere and it has therefore been considered as an oxycarbide phase stabilized by the presence of oxygen in the lattice. Our results, however, show that γ′-MoC 1− x films containing only trace amounts of oxygen can be deposited by CVD. Stability calculations using a FP-LMTO method confirmed that the γ′-MoC 1− x phase is stabilized by oxygen but that the difference in energy between e.g. δ-MoC 0.75 and oxygen-free γ′-MoC 0.75 is small enough to allow the synthesis of the latter phase in the absence of kinetic constraints. Annealing experiments of metastable δ-MoC 1− x and γ′-MoC 1− x films showed two different reaction products suggesting that kinetic effects play an important role in the decomposition of these phases.