Abstract: The disclosed technology generally relates to forming a titanium nitride-based thin films, and more particularly to a conformal and smooth titanium nitride-based thin films and methods of forming the same. In one aspect, a method comprises forming a diffusion barrier comprising TiSiN having a modulus exceeding 290 GPa and a Si content exceeding 2.7 atomic % by exposing a semiconductor substrate to one or more first deposition phases alternating with one or more second deposition phases. Exposing the semiconductor substrate to the one or more first deposition phases comprises alternatingly exposing the semiconductor substrate to a titanium (Ti) precursor and a nitrogen (N) precursor. Exposing the semiconductor substrate to the one or more second deposition phases comprises sequentially exposing the semiconductor substrate to the Ti precursor, followed by a silicon (Si) precursor, followed by the N precursor.

Abstract: The disclosed technology generally relates to forming a titanium nitride-based thin films, and more particularly to a conformal and smooth titanium nitride-based thin films and methods of forming the same. In one aspect, a method of forming a diffusion barrier comprising TiSiN comprises exposing a semiconductor substrate to one or more first deposition phases alternating with one or more second deposition phases. Exposing the semiconductor substrate to the one or more first deposition phases comprises alternatingly exposing the semiconductor substrate to a titanium (Ti) precursor and a nitrogen (N) precursor. Exposing the semiconductor substrate to the one or more second deposition phases comprises sequentially exposing the semiconductor substrate to the Ti precursor and a silicon (Si) precursor without an intervening exposure to the N precursor therebetween, followed by exposing the semiconductor substrate to the N precursor.

Abstract: The disclosed technology generally relates to forming a thin film comprising titanium nitride (TiN), and more particularly to forming by a cyclical vapor deposition process the thin film comprising (TiN). In one aspect, a method of forming a thin film comprising titanium nitride (TiN) by a cyclical vapor deposition process comprises forming on a semiconductor substrate a TiN thin film by exposing the semiconductor substrate to one or more cyclical vapor deposition cycles each comprising an exposure to a Ti precursor at a Ti precursor flow rate and an exposure to a NH3 precursor at a NH3 precursor flow rate, after forming the TiN film, subjecting the semiconductor substrate, without further deposition of the TiN thin film, to a post-deposition exposure of NH3 at a second NH3 flow rate.

Abstract: The disclosed technology generally relates to forming a thin film comprising titanium nitride (TiN), and more particularly to forming by a cyclical vapor deposition process the thin film comprising (TiN). In one aspect, a method a method of forming a thin film comprising titanium nitride (TiN) by a cyclical vapor deposition process comprises forming on a semiconductor substrate a TiN thin film by exposing the semiconductor substrate to one or more cyclical vapor deposition cycles each comprising an exposure to a Ti precursor at a Ti precursor flow rate and an exposure to a N precursor at a N precursor flow rate, wherein a ratio of the N precursor flow rate to the Ti precursor flow rate exceeds 3.