| Patent application number | Description | Published |
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| 20100015805 | Wet Etching Methods for Copper Removal and Planarization in Semiconductor Processing - Exposed copper regions on a semiconductor substrate can be etched by a wet etching solution comprising (i) one or more complexing agents selected from the group consisting of bidentate, tridentate, and quadridentate complexing agents; and (ii) an oxidizer, at a pH of between about 5 and 12. In many embodiments, the etching is substantially isotropic and occurs without visible formation of insoluble species on the surface of copper. The etching is useful in a number of processes in semiconductor fabrication, including for partial or complete removal of copper overburden, for planarization of copper surfaces, and for forming recesses in copper-filled damascene features. Examples of suitable etching solutions include solutions comprising a diamine (e.g., ethylenediamine) and/or a triamine (e.g., diethylenetriamine) as bidentate and tridentate complexing agents respectively and hydrogen peroxide as an oxidizer. In some embodiments, the etching solutions further include pH adjustors, such as sulfuric acid, aminoacids, and carboxylic acids. | 01-21-2010 |
| 20100029088 | Modulated metal removal using localized wet etching - An apparatus for wet etching metal from a semiconductor wafer comprises a wafer holder for rotating a wafer and a plurality of nozzles for applying separate flow patterns of etching liquid to the surface of the wafer. The flow patterns impact the wafer in distinct band-like impact zones. The flow pattern of etching liquid from at least one nozzle is modulated during a total etching time control the cumulative etching rate in one local etch region relative to the cumulative etching rate in one or more other local etch regions. Some embodiments include a lower etch chamber and an upper rinse chamber separated by a horizontal splash shield. Some embodiments include a retractable vertical splash shield used to prevent splashing of etching liquid onto the inside walls of a treatment container. An etch-liquid delivery system includes a plurality of nozzle flow paths having corresponding nozzle flow resistances, and a plurality of drain flow paths having corresponding drain flow resistances. Nozzle flow resistances and drain flow resistances are matched so that switching the flow from a nozzle to a corresponding drain flow path does not change the flow rate of etching liquid through other nozzles. A non-wafer-contacting measuring device measures a metal thickness on a rotating semiconductor wafer during metal wet etching by immersing a plurality of electrodes in etching liquid in close proximity to the wafer surface of the rotating wafer and determining electrical resistance between a plurality of electrodes. | 02-04-2010 |
| 20100320081 | APPARATUS FOR WETTING PRETREATMENT FOR ENHANCED DAMASCENE METAL FILLING - Disclosed are pre-wetting apparatus designs and methods. These apparatus designs and methods are used to pre-wet a wafer prior to plating a metal on the surface of the wafer. Disclosed compositions of the pre-wetting fluid prevent corrosion of a seed layer on the wafer and also improve the filling rates of features on the wafer. | 12-23-2010 |
| 20100320609 | WETTING PRETREATMENT FOR ENHANCED DAMASCENE METAL FILLING - Disclosed are pre-wetting apparatus designs and methods. These apparatus designs and methods are used to pre-wet a wafer prior to plating a metal on the surface of the wafer. Disclosed compositions of the pre-wetting fluid prevent corrosion of a seed layer on the wafer and also improve the filling rates of features on the wafer. | 12-23-2010 |
| 20110056913 | REDUCED ISOTROPIC ETCHANT MATERIAL CONSUMPTION AND WASTE GENERATION - Methods and apparatus for isotropically etching a metal from a work piece, while recovering and reconstituting the chemical etchant are described. Various embodiments include apparatus and methods for etching where the recovered and reconstituted etchant is reused in a continuous loop recirculation scheme. Steady state conditions can be achieved where these processes are repeated over and over with occasional bleed and feed to replenish reagents and/or adjust parameters such as pH, ionic strength, salinity and the like. | 03-10-2011 |
| 20110226613 | ELECTROLYTE LOOP WITH PRESSURE REGULATION FOR SEPARATED ANODE CHAMBER OF ELECTROPLATING SYSTEM - An electrolyte, and particularly anolyte, may be circulated via an open loop having a pressure regulator, so that the pressure in the plating chamber is maintained at a constant (or substantially constant) value with respect to atmospheric pressure. In these embodiments, a pressure regulator is in fluid communication with the anode chamber. | 09-22-2011 |
| 20110226614 | ELECTROLYTE LOOP WITH PRESSURE REGULATION FOR SEPARATED ANODE CHAMBER OF ELECTROPLATING SYSTEM - An electrolyte, and particularly anolyte, may be circulated via an open loop having a pressure regulator, so that the pressure in the plating chamber is maintained at a constant (or substantially constant) value with respect to atmospheric pressure. In these embodiments, a pressure regulator is in fluid communication with the anode chamber. | 09-22-2011 |
| 20120000786 | CONTROL OF ELECTROLYTE HYDRODYNAMICS FOR EFFICIENT MASS TRANSFER DURING ELECTROPLATING - Described are apparatus and methods for electroplating one or more metals onto a substrate. Embodiments include electroplating apparatus configured for, and methods including, efficient mass transfer during plating so that highly uniform plating layers are obtained. In specific embodiments, the mass transfer is achieved using a combination of impinging flow and shear flow at the wafer surface. | 01-05-2012 |
