A surface treatment method for quartz component includes: sandblasting the quartz component; ultrasonically treating the sandblasted quartz component to remove a sharp corner formed on the surface of the quartz component; immersion cleaning the quartz component; and drying the cleaned quartz component.

The present disclosure provides a method for cleaning a vacuum system used in the manufacture of OLED devices. The method includes performing pre-cleaning for cleaning at least a portion of the vacuum system, and performing plasma cleaning using a remote plasma source.

The present disclosure pertains to embodiments of a flush fixture for flushing a showerhead assembly. The flush fixture includes two distinct cavities, an inner cavity and an outer cavity surrounding the inner cavity and not fluidly connected to the inner cavity. When the flush fixture is mounted to a showerhead, inner apertures are in fluid connection with the inner cavity and one or more exhaust holes are in fluid connection with the outer cavity. Separately accessing the inner apertures and the one or more exhaust holes allows the showerhead to be properly flushed.

Provided is a method of evaluating cleanliness of a member having a silicon carbide surface, the method including bringing the silicon carbide surface into contact with a mixed acid of hydrofluoric acid, hydrochloric acid and nitric acid; concentrating the mixed acid brought into contact with the silicon carbide surface by heating; subjecting a sample solution obtained by diluting a concentrated liquid obtained by the concentration to quantitative analysis of metal components by Inductively Coupled Plasma-Mass Spectrometry; and evaluating cleanliness of the member having a silicon carbide surface on the basis of a quantitative result of metal components obtained by the quantitative analysis.

A method for conditioning ceramic coating on a part for use in a plasma processing chamber is provided. The ceramic coating is wetted with a solution, wherein the solution is formed by mixing a solvent with an electrolyte, wherein from 1% to 10% of the electrolyte dissociates in the solution. The ceramic coating is blasted with particles. The ceramic coating is rinsed.

There is provided a technique that includes a first annealing step of annealing the reaction tube; a first cleaning step of cleaning an inner surface of the reaction tube, after the first annealing step, with a liquid including a fluorine compound having a first concentration; a first rinsing step of washing away the fluorine compound used in the first cleaning step with pure water; a second annealing step of annealing the reaction tube; a second cleaning step of cleaning the inner surface of the reaction tube, after the second annealing step, with a liquid including a fluorine compound having a second concentration higher than the first concentration; and a second rinsing step of washing away the fluorine compound used in the second cleaning step with pure water.

In accordance with some embodiments, a method for processing semiconductor wafer is provided. The method includes loading a semiconductor wafer into a chamber. The method also includes creating an exhaust flow from the chamber. The method further includes depositing a film on the semiconductor wafer by supplying a processing gas into the chamber. In addition, the method includes detecting, with a use of a gas sensor, a concentration of the processing gas in the exhaust flow and generating a detection signal according to a result of the detection. The method further includes supplying a cleaning gas into the processing chamber for a time period after the film is formed on the semiconductor wafer. The time period is determined based on the detection signal.

A cleaning method that removes contaminants adhering to a stage in a chamber, includes: setting a pressure in a chamber to a predetermined vacuum pressure; supplying a first gas that forms a shock wave toward the stage; and supplying a second gas that does not form the shock wave toward the stage.

Methods for manufacturing a diffuser plate for a PECVD chamber are provided. The methods provide for applying a compliant abrasive medium to round the sharp edges at corners of the output holes on a contoured downstream side of a gas diffuser plate. By rounding the edges of the output holes reduces the flaking of deposited materials on the downstream side of the gas diffuser plate and reduces the amount of undesirable particles generated during the PECVD deposition process.

Embodiments of the present disclosure relate to apparatus and methods for cleaning an exhaust path of a semiconductor process tool. One embodiment provides an exhaust pipe section and a pipe cleaning assembly connected between a semiconductor process tool and a factory exhaust. The pipe cleaning assembly includes a residue remover disposed in the exhaust pipe section. The residue remover is operable to move in the exhaust pipe section to dislodge accumulated materials from an inner surface of the exhaust pipe section.