| Patent application number | Description | Published |
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| 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 |
| 20100269285 | APPARATUS AND SYSTEM FOR CLEANING SUBSTRATE - An upper processing head includes a topside module defined to apply a cleaning material to a top surface of a substrate and then expose the substrate to a topside rinsing meniscus. The topside module is defined to flow a rinsing material through the topside rinsing meniscus in a substantially unidirectional manner towards the cleaning material and opposite a direction of movement of the substrate. A lower processing head includes a bottomside module defined to apply a bottomside rinsing meniscus to the substrate so as to balance a force applied to the substrate by the topside rinsing meniscus. The bottomside module is defined to provide a drain channel for collecting and draining the cleaning material dispensed from the upper processing head when the substrate is not present between the upper and lower processing heads. The upper and lower processing heads can include multiple instantiations of the topside and bottomside modules, respectively. | 10-28-2010 |
| 20100288311 | Multi-Stage Substrate Cleaning Method and Apparatus - A first application of a cleaning material is made to a surface of a substrate. The cleaning material includes one or more viscoelastic materials for entrapping contaminants present on the surface of the substrate. A first application of a rinsing fluid is made to the surface of the substrate so as to rinse the cleaning material from the surface of the substrate. The first application of the rinsing fluid is also performed to leave a residual thin film of the rinsing fluid on the surface of the substrate. A second application of the cleaning material is made to the surface of the substrate having the residual thin film of rinsing fluid present thereon. A second application of the rinsing fluid is then made to the surface of the substrate so as to rinse the cleaning material from the surface of the substrate. | 11-18-2010 |
| 20110048467 | Apparatus and System for Cleaning Substrate - An upper processing head includes a topside module defined to apply a cleaning material to a top surface of a substrate and then expose the substrate to a topside rinsing meniscus. The topside module is defined to flow a rinsing material through the topside rinsing meniscus in a substantially uni-directional manner towards the cleaning material and opposite a direction of movement of the substrate. A lower processing head includes a bottomside module defined to apply a bottomside rinsing meniscus to the substrate so as to balance a force applied to the substrate by the topside rinsing meniscus. The bottomside module is defined to provide a drain channel for collecting and draining the cleaning material dispensed from the upper processing head when the substrate is not present between the upper and lower processing heads. The upper and lower processing heads can include multiple instantiations of the topside and bottomside modules, respectively. | 03-03-2011 |
| 20110094538 | SYSTEM AND METHOD FOR MONITORING WAFER STRESS - A method of using a processing system that is operable to deposit liquid and to remove liquid by way of negative pressure. The method includes arranging a device to have at least one of the liquid deposited thereon by the processing system and the liquid removed therefrom by the processing system. The device has a sensor portion disposed thereon. The sensor portion can provide a sensor signal based on pressure related to the at least one of the liquid being deposited thereon by the processing system and the liquid being removed therefrom by the processing system. The method further includes performing at least one of depositing, by the processing system, the liquid onto the device and removing the liquid, by the processing system, from the device. The method still further includes providing the sensor signal, by the sensor portion, based on the pressure related to the at least one of the liquid being deposited onto the device and the liquid being removed from the device. | 04-28-2011 |
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| 20090014324 | INTEGRATED APPARATUS FOR EFFICIENT REMOVAL OF HALOGEN RESIDUES FROM ETCHED SUBSTRATES - A method and apparatus for removing volatile residues from a substrate are provided. In one embodiment, a method for volatile residues from a substrate includes providing a processing system having a load lock chamber and at least one processing chamber coupled to a transfer chamber, treating a substrate in the processing chamber with a chemistry comprising halogen, and removing volatile residues from the treated substrate in the load lock chamber. | 01-15-2009 |
| 20090032880 | METHOD AND APPARATUS FOR TUNABLE ISOTROPIC RECESS ETCHING OF SILICON MATERIALS - Methods and apparatuses to etch recesses in a silicon substrate having an isotropic character to undercut a transistor in preparation for a source/drain regrowth. In one embodiment, a cap layer of a first thickness is deposited over a transistor gate stack and spacer structure. The cap layer is then selectively etched in a first region of the substrate, such as a p-MOS region, using a first isotropic plasma etch process and a second anisotropic plasma etch process. In another embodiment, an at least partially isotropic plasma recess etch is performed to provide a recess adjacent to the channel region of the transistor. In a particular embodiment, the plasma etch process provides a recess sidewall that is neither positively sloped nor more than 10 nm re-entrant. | 02-05-2009 |
| 20100258142 | APPARATUS AND METHOD FOR USING A VISCOELASTIC CLEANING MATERIAL TO REMOVE PARTICLES ON A SUBSTRATE - The embodiments provide apparatus and methods for removing particles from a substrate surface, especially from a surface of a patterned substrate (or wafer). The cleaning apparatus and methods have advantages in cleaning patterned substrates with fine features without substantially damaging the features on the substrate surface. The cleaning apparatus and methods involve using a viscoelastic cleaning material containing a polymeric compound with large molecular weight, such as greater than 10,000 g/mol. The viscoelastic cleaning material entraps at least a portion of the particles on the substrate surface. The application of a force on the viscoelastic cleaning material over a sufficiently short period time causes the material to exhibit solid-like properties that facilitate removal of the viscoelastic cleaning material along with the entrapped particles. A number of forces can be applied over a short period to access the solid-like nature of the viscoelastic cleaning material. Alternatively, when the temperature of the viscoelastic cleaning material is lowered, the visoelastic cleaning material also exhibits solid-like properties. | 10-14-2010 |
| 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 |
