Abstract: In a process chamber connected with a process roughing pump via a pump foreline, pumping from the process chamber to the foreline ammonia and a deposition precursor, introducing into the foreline hydrogen fluoride gas to react with the ammonia to form ammonium fluoride, and maintaining the process roughing pump and pump foreline at at least the ammonium fluoride sublimation temperature during the pumping provides ammonia abatement for improved roughing pump performance.

Abstract: An exhaust system for a substrate processing system includes a radical generator configured to receive a gas mixture including halogen species and to generate halogen radicals, a first pump to pump exhaust gas from an exhaust outlet of a processing chamber, and a first valve configured to selectively fluidly connect an outlet of the radical generator to the first pump downstream from the outlet of the processing chamber.

Abstract: Acetylene is treated to remove some residual storage solvent that may be present with the acetylene in a source of acetylene such as a container. Such treatment may be performed prior to supplying the acetylene to a deposition chamber or other reactor where acetylene is a reactant. After treatment, the acetylene gas stream has a relatively constant concentration of storage solvent, regardless of how much acetylene has been released from the acetylene source. The treatment may involve condensing the storage solvent from the gas stream at a certain temperature and separating the storage solvent from the gas stream.

Abstract: Provided herein are improved methods of depositing carbon-based films using acetylene as a precursor. The methods involve using a low-vapor pressure solvent, e.g., dimethylfluoride (DMF) to stabilize the acetylene and delivering the acetylene to a deposition chamber. The methods provide improved wafer-to-wafer thickness uniformity and increase the usable amount of acetylene in an acetylene source to over 95%.

Abstract: Acetylene is treated to remove some residual storage solvent that may be present with the acetylene in a source of acetylene such as a container. Such treatment may be performed prior to supplying the acetylene to a deposition chamber or other reactor where acetylene is a reactant. After treatment, the acetylene gas stream has a relatively constant concentration of storage solvent, regardless of how much acetylene has been released from the acetylene source. The treatment may involve condensing the storage solvent from the gas stream at a certain temperature and separating the storage solvent from the gas stream.

Abstract: Acetylene is treated to remove some residual storage solvent that may be present with the acetylene in a source of acetylene such as a container. Such treatment may be performed prior to supplying the acetylene to a deposition chamber or other reactor where acetylene is a reactant. After treatment, the acetylene gas stream has a relatively constant concentration of storage solvent, regardless of how much acetylene has been released from the acetylene source. The treatment may involve condensing the storage solvent from the gas stream at a certain temperature and separating the storage solvent from the gas stream.

Abstract: Provided herein are improved methods of depositing carbon-based films using acetylene as a precursor. The methods involve using a low-vapor pressure solvent, e.g., dimethylfluoride (DMF) to stabilize the acetylene and delivering the acetylene to a deposition chamber. The methods provide improved wafer-to-wafer thickness uniformity and increase the usable amount of acetylene in an acetylene source to over 95%.

Abstract: Acetylene is treated to remove some residual storage solvent that may be present with the acetylene in a source of acetylene such as a container. Such treatment may be performed prior to supplying the acetylene to a deposition chamber or other reactor where acetylene is a reactant. After treatment, the acetylene gas stream has a relatively constant concentration of storage solvent, regardless of how much acetylene has been released from the acetylene source. The treatment may involve condensing the storage solvent from the gas stream at a certain temperature and separating the storage solvent from the gas stream.