A mass-spectroscopical study of the decomposition of Ti(NMe2)(4) in a mixed Ar-H-2-N-2 pulsed dc plasma

The favourable gas-phase conditions for deposition of TiN have been determi ned by a mass-spectroscopic investigation of the gaseous species in an ambi ent of tetrakis(dimethyl-amino) titanium (TDMAT) molecules during pulsed d. c. plasma-enhanced deposition processes. The gas-phase composition was vari ed, at a pressure of 0.4 Torr, a temperature of 350 degrees C and a bias vo ltage of 500 V, based on an Ar, H-2, N-2 ternary diagram. The results revea l that hydrogen plays a key role in the cleavage of -NMe2 from the central Ti atom. The addition of N-2 to the hydrogen plasma opens up the possibilit y for transamination reactions by NHx formation (1<x<3), known by thermal C VD using NH3. This addition also leads to powder formation, which seems to reach a maximum within a 100% N-2 plasma. In a nitrogen plasma, only relati vely small amounts of gaseous species, like HCN, NH2CN, and CH3CN, are dete cted, which indicates that residual hydrocarbon fragments of TDMAT must be incorporated into the powder and coating. Even small amounts of Ar addition to a hydrogen plasma convert TDMAT to powder particles, which is the oppos ite of the densification purpose of Ar bombarment. No gaseous species, apar t from small amounts of HCN, are detected, suggesting hydrocarbon-containin g coatings. If Ar:H-2:N-2 = 1:1:1, no specific mechanism is dominant under the conditions used here. Decreasing the deposition temperature and pressur e and increasing the bias voltage seem to favour the cleavage of -NMe2 liga nds. (C) 1998 Elsevier Science S.A. All rights reserved.