| Patent application number | Description | Published |
|---|
| 20080236618 | Cleaning of bonded silicon electrodes - Methods of cleaning plasma processing chamber components include contacting surfaces of the components with a cleaning solution, while avoiding damage of other surfaces or areas of the components by the cleaning solution. An exemplary plasma processing chamber component to be cleaning is an elastomer bonded electrode assembly having a silicon member with a plasma-exposed silicon surface, a backing member, and an elastomer bonding material between the silicon surface and the backing member. | 10-02-2008 |
| 20080236620 | Methodology for cleaning of surface metal contamination from electrode assemblies - Systematic and effective methodology to clean capacitively coupled plasma reactor electrodes and reduce surface roughness so that the cleaned electrodes meet surface contamination specifications and manufacturing yields are enhanced. Pre-cleaning of tools used in the cleaning process helps prevent contamination of the electrode being cleaned. | 10-02-2008 |
| 20090311079 | ELECTRODE TRANSPORTER AND FIXTURE SETS INCORPORATING THE SAME - An electrode transporter is provided comprising a transporter frame, a plurality of transitional support elements, and a plurality of flipside support elements. The flipside support elements are configured to immobilize an electrode along a gravitational force vector normal to a major face of an electrode positioned in an electrode accommodating space defined by the transitional support elements and the flipside support elements. The transitional support elements are configured to transition back and forth from a secured state, where the electrode is further immobilized along an opposing force vector opposite the gravitational force vector, to an unsecured state where the electrode is relatively mobile along the opposing force vector. Additional embodiments relate to the use of a transporter tripod and an electrode removal puck and lifting fork to remove an electrode from the transporter frame. | 12-17-2009 |
| 20090321018 | PERIPHERALLY ENGAGING ELECTRODE CARRIERS AND ASSEMBLIES INCORPORATING THE SAME - In accordance with one embodiment of the present disclosure, an assembly is provided comprising a multi-component electrode and a peripherally engaging electrode carrier. The peripherally engaging electrode carrier comprises a carrier frame and a plurality of reciprocating electrode supports. The multi-component electrode is positioned in the electrode accommodating aperture of the carrier frame. The backing plate of the electrode comprises a plurality of mounting recesses formed about its periphery. The reciprocating electrode supports can be reciprocated into and out of the mounting recesses. Additional embodiments of broader and narrower scope are contemplated. | 12-31-2009 |
| 20090322199 | BACKSIDE MOUNTED ELECTRODE CARRIERS AND ASSEMBLIES INCORPORATING THE SAME - A carrier assembly is provided comprising a backside mounted electrode carrier and electrode mounting hardware. The backside mounted electrode carrier comprises an electrode accommodating aperture, which in turn comprises a sidewall structure that is configured to limit lateral movement of an electrode positioned in the aperture. The electrode accommodating aperture further comprises one or more sidewall projections that support the weight of an electrode positioned in the aperture. The electrode mounting hardware is configured to engage an electrode positioned in the electrode accommodating aperture from the backside of the carrier and urge the electrode against the sidewall projections so as to limit axial movement of the electrode in the electrode accommodating aperture. Additional embodiments of broader and narrower scope are contemplated. | 12-31-2009 |
| 20090325320 | PROCESSES FOR RECONDITIONING MULTI-COMPONENT ELECTRODES - A process for reconditioning a multi-component electrode comprising a silicon electrode bonded to an electrically conductive backing plate is provided. The process comprises: (i) removing metal ions from the multi-component electrode by soaking the multi-component electrode in a substantially alcohol-free DSP solution comprising sulfuric acid, hydrogen peroxide, and water and rinsing the multi-component electrode with de-ionized water; (ii) polishing one or more surfaces of the multi-component electrode following removal of metal ions there from; and (iii) removing contaminants from silicon surfaces of the multi-component electrode by treating the polished multi-component electrode with a mixed acid solution comprising hydrofluoric acid, nitric acid, acetic acid, and water and by rinsing the treated multi-component electrode with de-ionized water. Additional embodiments of broader and narrower scope are contemplated. | 12-31-2009 |
| 20100045316 | METHOD FOR INSPECTING ELECTROSTATIC CHUCKS WITH KELVIN PROBE ANALYSIS - A method of inspecting an electrostatic chuck (ESC) is provided. The ESC has a dielectric support surface for a semiconductor wafer. The dielectric support surface is scanned with a Kelvin probe to obtain a surface potential map. The surface potential map is compared with a reference Kelvin probe surface potential map to determine if the ESC passes inspection. | 02-25-2010 |
| 20100139692 | IMMERSIVE OXIDATION AND ETCHING PROCESS FOR CLEANING SILICON ELECTRODES - A process for cleaning a silicon electrode is provided where the silicon electrode is soaked in an agitated aqueous detergent solution and rinsed with water following removal from the aqueous detergent solution. The rinsed silicon electrode is then soaked in an agitated isopropyl alcohol (IPA) solution and rinsed. The silicon electrode is then subjected to an ultrasonic cleaning operation in water following removal from the IPA solution. Contaminants are then removed from the silicon electrode by soaking the silicon electrode in an agitated mixed acid solution comprising hydrofluoric acid, nitric acid, acetic acid, and water. The silicon electrode is subjected to an additional ultrasonic cleaning operation following removal from the mixed acid solution and is subsequently rinsed and dried. In other embodiments of the present disclosure, it is contemplated that the silicon electrode can be soaked in either the agitated aqueous detergent solution, the agitated isopropyl alcohol (IPA) solution, or both. Additional embodiments are contemplated, disclosed, and claimed. | 06-10-2010 |
| 20100144246 | PLATEN AND ADAPTER ASSEMBLIES FOR FACILITATING SILICON ELECTRODE POLISHING - A process is provided for polishing a silicon electrode utilizing a polishing turntable and a dual function electrode platen. The dual function electrode platen is secured to the polishing turntable and comprises a plurality of electrode mounts arranged to project from an electrode engaging face of the dual function electrode platen. The electrode mounts complement respective positions of mount receptacles formed in a platen engaging face of the silicon electrode to be polished. The electrode mounts and the mount receptacles are configured to permit non-destructive engagement and disengagement of the electrode engaging face of the electrode platen and the platen engaging face of the silicon electrode. The dual function electrode platen further comprises platen adapter abutments positioned radially inward of the electrode mounts. The platen adapter abutments are configured to bring a platen adapter into approximate alignment with the rotary polishing axis. The silicon electrode is polished by (i) engaging the electrode engaging face of the electrode platen and the platen engaging face of the silicon electrode via the electrode mounts and mount receptacles, (ii) utilizing the polishing turntable to impart rotary motion to the engaged silicon electrode, and (iii) contacting an exposed face of the silicon electrode with a polishing surface as the silicon electrode rotates about the rotary polishing axis. Additional embodiments are contemplated, disclosed and claimed. | 06-10-2010 |
| 20110146704 | METHODOLOGY FOR CLEANING OF SURFACE METAL CONTAMINATION FROM AN UPPER ELECTRODE USED IN A PLASMA CHAMBER - A method for cleaning metallic contaminants from an upper electrode used in a plasma chamber. The method comprises a step of soaking the upper electrode in a cleaning solution of concentrated ammonium hydroxide, hydrogen peroxide and water. The cleaning solution is free of hydrofluoric acid and hydrochloric acid. The method further comprises an optional step of soaking the upper electrode in dilute nitric acid and rinsing the cleaned upper electrode. | 06-23-2011 |
