A semiconductor processing apparatus is disclosed. The apparatus may include, a reaction chamber and a susceptor dispose in the reaction chamber configured for supporting a substrate thereon, the susceptor comprising a plurality of through-holes in an axial direction of the susceptor. The apparatus may also include, a plurality of lift pins, each of the lift pins being disposed within a respective through-hole, and at least one gas transmitting channel comprising one or more gas channel outlets, the one or more gas channel outlets being disposed proximate to the through-holes. Methods for processing a substrate within a reaction chamber are also disclosed.

Embodiments described herein relate to a gas line cleaning system and a method of cleaning gas lines. The gas line cleaning system includes a connector having a first end and a second end, and a fluid system. The fluid system includes a fluid source configured to flow a fluid through a fluid conduit connected to the first end, and an ultrasonic transducer coupled to the fluid conduit configured to apply an ultrasonic energy to the fluid conduit to agitate the fluid. The ultrasonic energy creates a mechanical energy that reverberates in the fluid conduit and propagates into the fluid to remove particles that may have formed on an inside surface of a gas line connected to the second end and carry away particles inside the gas line.

Methods for revitalizing components of a plasma processing apparatus that includes a sensor for detecting a thickness or roughness of a peeling weakness layer on a protective surface coating of a plasma processing tool and/or for detecting airborne contaminants generated by such peeling weakness layer. The method includes detecting detrimental amounts of peeling weakness layer buildup or airborne concentration of atoms or molecules from the peeling weakness layer, and initiating a revitalization process that bead beats the peeling weakness layer to remove it from the component while maintaining the integrity of the protective surface coating.

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.

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.

A vacuum system for silicon crystal growth includes a silicon crystal growth chamber, a first vacuum pipe, a second vacuum pipe, and an oxides container. The first vacuum pipe is coupled to the chamber and has within a first brush that is movable in a first direction for removing internal oxides. The second vacuum pipe is coupled to the first vacuum pipe for receiving the internal oxides via the first brush and has within a second brush that is movable in a second direction different from the first direction. The second brush transports the received internal oxides away from the first vacuum pipe. The oxides container is coupled to the second vacuum pipe for receiving the internal oxides via the second brush.

Apparatus and method for removing material from the susceptor of a batch processing chamber are described. The apparatus comprises a polishing tool including a rotatable platen positioned above the susceptor. A method comprises contacting material deposited on the susceptor with the rotatable platen to remove the material from the susceptor.

Aspects of the inventive concepts provide a cleaning apparatus and a substrate processing system including the same. The cleaning apparatus includes a chuck receiving a substrate, a first nozzle providing first cleaning water or a first organic solvent onto the substrate at a first pressure, and a second nozzle disposed adjacent to the first nozzle. The second nozzle provides a cleaning solution including second cleaning water and a second organic solvent onto the substrate at a second pressure lower than the first pressure.

An exemplary embodiment discloses a process for cleaning semiconductor fabrication equipment parts with non-metallic surfaces. The process optionally includes providing a semiconductor fabrication part with a non-metallic surface to be cleaned and applying a dilute aqueous solution to remove contamination from the non-metallic surface. The aqueous solution optionally includes dilute amounts of hydrofluoric acid, nitric acid and hydrogen peroxide. The dilute amounts would optionally be in the ranges of 0.5-1.5% wt. hydrofluoric acid, 0.1-0.5% wt. nitric acid and 1-10% wt. hydrogen peroxide.

Embodiments of a methods and cleaning systems for cleaning components for use in substrate processing equipment are provided herein. In some embodiments, a cleaning system includes a boiler having a heater configured to heat a fluid; a clean chamber fluidly coupled to the boiler via at least one of a gas line and a liquid line, wherein the clean chamber includes one or more fixtures in an interior volume therein for holding at least one component to be cleaned, and wherein the clean chamber includes a heater for heating the interior volume; and an expansion chamber fluidly coupled to the clean chamber via a release line for evacuating the clean chamber, wherein the release line includes a release valve to selectively open or close a flow path between the expansion chamber and the clean chamber, and wherein the expansion chamber includes a chiller and a vacuum port.