Integrated circuit with a titanium nitride contact barrier having oxygen

Abstract

Methods of forming, in an integrated circuit, aluminum-silicon contacts with a barrier layer is disclosed. The barrier layer is enhanced by the provision of titanium oxynitride layers adjacent the silicide film formed at the exposed silicon at the bottom of the contact. The titanium oxynitride may be formed by depositing a low density titanium nitride film over a titanium metal layer that is in contact with the silicon in the contact; subsequent exposure to air allows a relatively large amount of oxygen and nitrogen to enter the titanium nitride. A rapid thermal anneal (RTA) both causes silicidation at the contact location and also results in the oxygen and nitrogen being gettered to what was previously the titanium/titanium nitride interface, where the oxygen and nitrogen react with the titanium metal and nitrogen in the atmosphere to form titanium oxynitride. The low density titanium nitride also densifies during the RTA. Alternative embodiments are also disclosed in which the silicide is formed first, prior to the formation of additional titanium oxynitride by air exposure and RTA, or by sputter deposition. Each of these processes produces a high-quality barrier contact structure overlying a silicide film, where the barrier structure includes titanium oxynitride and titanium nitride.