Abstract: Method of forming low-k films with reduced dielectric constant, reduced CHx content, and increased hardness are described. A siloxane film is on a substrate surface using a siloxane precursor comprising O—Si—O bonds and cured using ultraviolet light.

Abstract: Embodiments of the semiconductor processing methods to form low-? films on semiconductor substrates are described. The processing methods may include flowing deposition precursors into a substrate processing region of a semiconductor processing chamber. The deposition precursors may include a silicon-containing precursor that has at least one vinyl group. The methods may further include generating a deposition plasma in the substrate processing region from the deposition precursors. A silicon-and-carbon-containing material, characterized by a dielectric constant (? value) less than or about 3.0, may be deposited on the substrate from plasma effluents of the deposition plasma.

Abstract: Exemplary semiconductor processing methods to clean a substrate processing chamber are described. The methods may include depositing a dielectric film on a first substrate in a substrate processing chamber, where the dielectric film may include a silicon-carbon-oxide. The first substrate having the dielectric film may be removed from the substrate processing chamber, and the dielectric film may be deposited on at least one more substrate in the substrate processing chamber. The at least one more substrate may be removed from the substrate processing chamber after the dielectric film is deposited on the substrate. Etch plasma effluents may flow into the substrate processing chamber after the removal of a last substrate having the dielectric film. The etch plasma effluents may include greater than or about 500 sccm of NF3 plasma effluents, and greater than or about 1000 sccm of O2 plasma effluents.