| Patent application number | Description | Published |
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| 20090151752 | METHODS FOR PARTICLE REMOVAL BY SINGLE-PHASE AND TWO-PHASE MEDIA - The embodiments of the present invention provide methods for cleaning patterned substrates with fine features. The methods for cleaning patterned substrate have advantages in cleaning patterned substrates with fine features without substantially damaging the features by using the cleaning materials described. The cleaning materials are fluid, either in liquid phase, or in liquid/gas phase, and deform around device features; therefore, the cleaning materials do not substantially damage the device features or reduce damage all together. The cleaning materials containing polymers of a polymeric compound with large molecular weight capture the contaminants on the substrate. In addition, the cleaning materials entrap the contaminants and do not return the contaminants to the substrate surface. The polymers of one or more polymeric compounds with large molecular weight form long polymer chains, which can also be cross-linked to form a network (or polymeric network). The long polymer chains and/or polymer network show superior capabilities of capturing and entrapping contaminants, in comparison to conventional cleaning materials. | 06-18-2009 |
| 20090151754 | Method and Apparatus for Removing Contaminants from Substrate - A cleaning material is applied to a surface of a substrate. The cleaning material includes one or more polymeric materials for entrapping contaminants present on the surface of the substrate. A rinsing fluid is applied to the surface of the substrate at a controlled velocity to effect removal of the cleaning material and contaminants entrapped within the cleaning material from the surface of the substrate. The controlled velocity of the rinsing fluid is set to cause the cleaning material to behave in an elastic manner when impacted by the rinsing fluid, thereby improving contaminant removal from the surface of the substrate. | 06-18-2009 |
| 20090151757 | APPARATUS FOR PARTICLE REMOVAL BY SINGLE-PHASE AND TWO-PHASE MEDIA - The embodiments of the present invention provide apparatus for cleaning patterned substrates with fine features with cleaning materials. The apparatus using the cleaning materials has advantages in cleaning patterned substrates with fine features without substantially damaging the features. The cleaning materials are fluid, either in liquid phase, or in liquid/gas phase, and deform around device features; therefore, the cleaning materials do not substantially damage the device features or reduce damage all together. The cleaning materials containing polymers of a polymeric compound with large molecular weight capture the contaminants on the substrate. In addition, the cleaning materials entrap the contaminants and do not return the contaminants to the substrate surface. The polymers of one or more polymeric compounds with large molecular weight form long polymer chains, which can also be cross-linked to form a network (or polymeric network). The long polymer chains and/or polymer network show superior capabilities of capturing and entrapping contaminants, in comparison to conventional cleaning materials. | 06-18-2009 |
| 20090156452 | MATERIALS FOR PARTICLE REMOVAL BY SINGLE-PHASE AND TWO-PHASE MEDIA - The embodiments of the present invention provide improved materials for cleaning patterned substrates with fine features. The cleaning materials have advantages in cleaning patterned substrates with fine features without substantially damaging the features. The cleaning materials are fluid, either in liquid phase, or in liquid/gas phase, and deform around device features; therefore, the cleaning materials do not substantially damage the device features or reduce damage all together. The cleaning materials containing polymers of a polymeric compound with large molecular weight capture the contaminants on the substrate. In addition, the cleaning materials entrap the contaminants and do not return the contaminants to the substrate surface. The polymers of one or more polymeric compounds with large molecular weight form long polymer chains, which can also be cross-linked to form a network (or polymeric network). The long polymer chains and/or polymer network show superior capabilities of capturing and entrapping contaminants, in comparison to conventional cleaning materials. | 06-18-2009 |
| 20090211596 | Method of post etch polymer residue removal - A system and method for removing post-etch polymer residue from a surface of a substrate includes identifying a dry flash chemistry for removing the post-etch polymer residue from the surface of the substrate. The dry flash chemistry is configured to selectively remove the post-etch polymer residue left behind by an etch operation in a region where a feature was formed through a low-k dielectric film layer. The identified dry flash chemistry is applied using a short flash process to remove at least a portion of the post-etch polymer residue while minimizing the damage to the dielectric film layer. A wet cleaning chemistry is then applied to the surface of the substrate. The application of the wet cleaning chemistry aids in substantially removing the remaining post-etch polymer residue left behind by the short flash process. | 08-27-2009 |
| 20100116290 | COMPOSITION AND APPLICATION OF A TWO-PHASE CONTAMINANT REMOVAL MEDIUM - The embodiments provide substrate cleaning techniques to remove contaminants from the substrate surface to improve device yield. The substrate cleaning techniques utilize a cleaning material with solid components and polymers with a large molecular weight dispersed in a cleaning liquid to form the cleaning material, which is fluidic. The solid components remove contaminants on the substrate surface by making contact with the contaminants. The polymers with large molecular weight form polymer chains and a polymeric network that capture and entrap solids in the cleaning materials, which prevent solids from falling on the substrate surface. In addition, the polymers can also assist in removing contaminants form the substrate surface by making contacts with contaminants on the substrate surface. In one embodiment, the cleaning material glides around protruding features on the substrate surface without making a forceful impact on the protruding features to damage them. The present invention can be implemented in numerous ways, including a material (or solution), a method, a process, an apparatus, or a system. | 05-13-2010 |
| 20100120647 | COMPOSITION OF A CLEANING MATERIAL FOR PARTICLE REMOVAL - The embodiments of the present invention provide improved materials for cleaning patterned substrates with fine features. The cleaning materials have advantages in cleaning patterned substrates with fine features without substantially damaging the features. The cleaning materials are fluid, either in liquid phase, or in liquid/gas phase, and deform around device features; therefore, the cleaning materials do not substantially damage the device features or reduce damage all together. To assist removing of particles from the wafer (or substrate) surfaces, the polymeric compound of the polymers can contain a polar functional group, which can establish polar-polar molecular interaction and hydrogen bonds with hydrolyzed particles on the wafer surface. The polymers of a polymeric compound(s) with a large molecular weight form long polymer chains and network. The long polymer chains and/or polymer network show superior capabilities of capturing and entrapping contaminants, in comparison to conventional cleaning materials. The polymeric compound(s) of the polymers may also include a functional group that carries charge in the cleaning solution. The charge of the functional group of the polymers improves the particle removal efficiency. | 05-13-2010 |
| 20110132400 | Method and System for Uniformly Applying a Multi-Phase Cleaning Solution to a Substrate - An apparatus used to supply a force onto a cleaning solution for processing a substrate for cleaning surface contaminants is disclosed. The apparatus includes a force applicator and a gate. The force applicator is configured to be adjusted to a first height to off the surface of the substrate. The gate is positioned adjacent to a trailing point of the force applicator and is configured to be adjusted to a second height off of the surface of the substrate to enable planarization of the cleaning solution as the solution moves to the trailing point. | 06-09-2011 |
