A method for deposition of silicon and nitrogen containing dielectric film via an atomic layer deposition (ALD) or in an ALD-like process. The method includes the steps of a) providing at least one substrate into a reactor and heating the reactor to at least one temperature ranging from about 25 C. to about 600 C. and optionally maintaining the reactor at a pressure of about 100 torr or less; b) introducing into the reactor at least a first precursor comprising a halogenated silicon-containing compound that forms a silicon-containing layer; c) purging any unreacted precursor from the reactor using inert gas; d) introducing at least a second precursor, comprising at least two or more primary amino-containing silicon atoms, which reacts with the silicon-containing layer to form a film comprising silicon and nitrogen; e) purging the reactor using inert gas; f) introducing a plasma source into the reactor to react with the film comprising silicon and nitrogen; g) purging any reaction by-products from the reactor using inert gas, and repeating steps b to g to bring the film comprising silicon and nitrogen to a desired thickness.

Methods of selectively depositing a carbon-containing layer are described. Exemplary processing methods may include treating a substrate comprising a carbon-containing surface and a silicon-containing surface with one or more of ozone or hydrogen peroxide to passivate the silicon-containing surface. In one or more embodiments, a carbon-containing layer is then selectively deposited on the carbon-containing surface and not on the silicon-containing surface by flowing a first precursor over the substrate to form a first portion of an initial carbon-containing film on the carbon-containing surface and not on the silicon-containing surface. The methods may include removing a first precursor effluent from the substrate. A second precursor may then be flowed over the substrate to react with the first portion of the initial carbon-containing layer. The methods may include removing a second precursor effluent from the substrate.

Semiconductor structures and methods for manufacturing the same are provided. The semiconductor structure includes a gate structure formed over a substrate, and a source/drain (S/D) structure formed adjacent to the gate structure. The semiconductor structure includes an S/D conductive plug over the S/D structure and in a dielectric layer, and a protruding conductive structure on the S/D conductive plug. The protruding conductive structure extends above a top surface of the dielectric layer. The semiconductor structure includes a conductive layer formed on the protruding conductive structure.

Methods of forming silicon nitride on a sidewall of a feature are disclosed. Exemplary methods include providing a substrate comprising a feature comprising a sidewall surface and a surface adjacent the sidewall surface, forming a silicon oxide layer overlying the sidewall surface and the surface adjacent the sidewall surface, using a cyclical deposition process, depositing a silicon nitride layer overlying the silicon oxide layer, and exposing the silicon nitride layer to activated species generated from a hydrogen-containing gas. Exemplary methods can additionally include selectively removing a portion of the silicon nitride layer. Structures formed using the methods and systems for performing the methods are also disclosed.