| Lam Research Corp. Patent applications |
| Patent application number | Title | Published |
|---|
| 20110155563 | APPARATUS AND METHOD FOR DEPOSITING AND PLANARIZING THIN FILMS OF SEMICONDUCTOR WAFERS - An electroplating apparatus for depositing a metallic layer on a surface of a wafer is provided. In one example, a proximity head capable of being electrically charged as an anode is placed in close proximity to the surface of the wafer. A plating fluid is provided between the wafer and the proximity head to create localized metallic plating. | 06-30-2011 |
| 20100313917 | METHOD OF PARTICLE CONTAMINANT REMOVAL - Apparatus and methods for removing particle contaminants from a solid surface includes providing a layer of a viscoelastic material on the solid surface. The viscoelastic material is applied as a thin film and exhibits substantial liquid-like characteristics. The viscoelastic material at least partially binds with the particle contaminants. A high velocity liquid is applied to the viscoelastic material, such that the viscoelastic material exhibits solid-like behavior. The viscoelastic material is thus dislodged from the solid surface along with the particle contaminants, thereby cleaning the solid surface of the particle contaminants. | 12-16-2010 |
| 20100300492 | Method and Apparatus for Physical Confinement of a Liquid Meniscus over a Semiconductor Wafer - Apparatus, methods and systems for physically confining a liquid medium applied over a semiconductor wafer include a first and a second chemical head that are disposed to cover at least a portion of a top and an underside surface of the semiconductor wafer. Each of the first and the second chemical heads include an angled inlet conduit at a leading edge of the respective chemical heads to deliver liquid chemistry into a pocket of meniscus in a single phase. The pocket of meniscus is defined over the portion of the top and underside surface of the semiconductor wafer covered by the chemical heads and is configured to receive and contain the liquid chemistry applied to the surface of the semiconductor wafer as a meniscus. A step is formed at a leading edge of the first and second chemical heads along an outer periphery of the pocket of meniscus to substantially confine the meniscus of the liquid chemistry within the pocket of meniscus. The step covers at least a portion of the pocket of meniscus and the step's height is sufficient to preserve confinement characteristic of the meniscus. An inner return conduit is defined within the pocket of meniscus at a trailing edge of the respective chemical heads and is used to remove the liquid chemistry from the surface of the semiconductor wafer in a single phase after the cleaning process. | 12-02-2010 |
| 20100229890 | Method of Particle Contaminant Removal - Apparatus and methods for removing particle contaminants from a surface of a substrate includes coating a layer of a viscoelastic material on the surface. The viscoelastic material is coated as a thin film and exhibits substantial liquid-like characteristic. An external force is applied to a first area of the surface coated with the viscoelastic material such that a second area of the surface coated with the viscoelastic material is not substantially subjected to the applied force. The force is applied for a time duration that is shorter than a intrinsic time of the viscoelastic material so as to access solid-like characteristic of the viscoelastic material. The viscoelastic material exhibiting solid-like characteristic interacts at least partially with at least some of the particle contaminants present on the surface. The viscoelastic material along with at least some of the particle contaminants is removed from the first area of the surface while the viscoelastic material is exhibiting solid-like characteristics. | 09-16-2010 |
| 20100108093 | ACOUSTIC ASSISTED SINGLE WAFER WET CLEAN FOR SEMICONDUCTOR WAFER PROCESS - A method for cleaning a substrate is provided that includes applying a liquid medium to a surface of the substrate such that the liquid medium substantially covers a portion of the substrate that is being cleaned. One or more transducers are used to generate acoustic energy. The generated acoustic energy is applied to the substrate and the liquid medium meniscus such that the applied acoustic energy to the liquid medium prevents cavitation within the liquid medium. The acoustic energy applied to the substrate provides maximum acoustic wave displacement to acoustic waves introduced into the liquid medium. The acoustic energy introduced into the substrate and the liquid medium enables dislodging of the particle contaminant from the surface of the substrate. The dislodged particle contaminants become entrapped within the liquid medium and are carried away from the surface of the substrate by the liquid medium. | 05-06-2010 |
| 20090321250 | Apparatus for Plating Semiconductor Wafers - An electroplating apparatus for electroplating a surface of a wafer is provided. The wafer is capable of being electrically charged as a cathode. The electroplating apparatus includes a plating head capable of being positioned either over or under the surface of a wafer and capable of being electrically charged as an anode. The plating head is capable of enabling metallic plating between the surface of the wafer and the plating head when the wafer and plating head are charged. The plating head further comprises a voltage sensor pair capable of sensing a voltage present between the plating head and the surface of the wafer, and a controller capable of receiving data from the voltage sensor pair. The data received from the voltage sensor pair is used by the controller to maintain a substantially constant voltage to be applied by the anode when the plating head is placed in positions over the surface of the wafer. A method of electroplating a wafer is also provided. | 12-31-2009 |
| 20090176360 | Methods for processing a substrate with a flow controlled meniscus - A method for processing a substrate is provided which includes applying fluid onto a surface of the substrate from a portion of a plurality of inlets and removing at least the fluid from the surface of the substrate where the removing being processed as the fluid is applied to the surface. The applying the fluid and the removing the fluid forms a segment of a fluid meniscus on the surface of the substrate. | 07-09-2009 |
| 20090151753 | METHODS FOR TRANSITIONING A FLUID MENISCUS TO AND FROM SURFACES OF A SUBSTRATE - Methods for processing a substrate with a fluid meniscus are provided. One method includes positioning a transition surface substantially coplanar to a substrate surface. The transition surface is defined to be adjacent to an edge of the substrate. And, moving a fluid meniscus between the transition surface and the substrate surface. | 06-18-2009 |
| 20080271992 | Apparatus and method for plating semiconductor wafers - An electroplating apparatus for electroplating a surface of a wafer is provided. The wafer is capable of being electrically charged as a cathode. The electroplating apparatus includes a plating head capable of being positioned either over or under the surface of a wafer and capable of being electrically charged as an anode. The plating head is capable of enabling metallic plating between the surface of the wafer and the plating head when the wafer and plating head are charged. The plating head further comprises a voltage sensor pair capable of sensing a voltage present between the plating head and the surface of the wafer, and a controller capable of receiving data from the voltage sensor pair. The data received from the voltage sensor pair is used by the controller to maintain a substantially constant voltage to be applied by the anode when the plating head is placed in positions over the surface of the wafer. A method of electroplating a wafer is also provided. | 11-06-2008 |
| 20080230097 | Methods for Processing Wafer Surfaces Using Thin, High Velocity Fluid Layer - Among the many embodiment, in one embodiment, a method for processing a substrate is disclosed which includes generating a fluid layer on a surface of the substrate, the fluid layer defining a fluid meniscus. The generating includes moving a head in proximity to the surface, applying a fluid from the head to the surface while the head is in proximity to the surface of the substrate to define the fluid layer, and removing the fluid from the surface through the proximity head by a vacuum. The fluid travels along the fluid layer between the head and the substrate at a velocity that increases as the head is in closer proximity to the surface. | 09-25-2008 |
