Patent application number | Description | Published |
20090114249 | System and method for contained chemical surface treatment - An apparatus, system and method for preparing a surface of a substrate using a proximity head includes applying a non-Newtonian fluid between the surface of the substrate and a head surface of the proximity head. The non-Newtonian fluid defines a containment wall along one or more sides between the head surface and the surface of the substrate. The one or more sides provided with the non-Newtonian fluid define a treatment region on the substrate between the head surface and the surface of the substrate. A Newtonian fluid is applied to the surface of the substrate through the proximity head, such that the applied Newtonian fluid is substantially contained in the treatment region defined by the containment wall. The contained Newtonian fluid aids in the removal of one or more contaminants from the surface of the substrate. In one example, the non-Newtonian fluid can also be used to create ambient controlled isolated regions, which can assist in controlled processing of surfaces within the regions. In an alternate example, a second non-Newtonian fluid is applied to the treatment region instead of the Newtonian fluid. The second non-Newtonian fluid acts on one or more contaminants on the surface of the substrate substantially removing them from the surface of the substrate. | 05-07-2009 |
20090308410 | METHOD AND MATERIAL FOR CLEANING A SUBSTRATE - Methods for cleaning using a tri-state body are disclosed. A substrate having a particle deposited thereon is provided. A tri-state body that has a solid portion, liquid portion, and a gas portion is generated. A force is applied over the tri-state body to promulgate an interaction between the solid portion and the particle. The tri-state body is removed along with the particle from the surface of the substrate. The interaction between the solid portion and the particle causing the particle to be removed along with the tri-state body. | 12-17-2009 |
20090308413 | APPARATUS AND SYSTEM FOR CLEANING A SUBSTRATE - An apparatus for cleaning a substrate is disclosed. The apparatus having a first head unit and a second head unit. The first head unit is positioned proximate to the surface of the substrate and has a first row of channels defined within configured to supply a foam to the surface of the substrate. The second head unit is positioned substantially adjacent to the first head unit and proximate to the surface of the substrate. A second and a third row of channels are defined within the second head unit. The second row of channels is configured to supply a fluid to the surface of the substrate. The third row of channels is configured to apply a vacuum to the surface of the substrate. | 12-17-2009 |
20100018553 | METHOD AND APPARATUS FOR SURFACE TREATMENT OF SEMICONDUCTOR SUBSTRATES USING SEQUENTIAL CHEMICAL APPLICATIONS - A system and method for removing polymer residue from around a metal gate structure formed on a surface of a substrate during a post-etch cleaning operation includes determining a plurality of process parameters associated with the metal gate structure and the polymer residue to be removed. A plurality of fabrication layers define the metal gate structure and the process parameters define characteristics of the fabrication layers and the polymer residue. A first cleaning chemistry and second cleaning chemistry are identified and a plurality of application parameters associated with the first and second cleaning chemistries are defined based on the process parameters. The first and second application chemistries are applied sequentially in a controlled manner using the application parameters to substantial remove the polymer residue while preserving the structural integrity of the gate structure. | 01-28-2010 |
20100059088 | Method and Apparatus for Removing Contamination from Substrate - A cleaning material is disposed over a substrate. The cleaning material includes solid components dispersed within a liquid medium. A force is applied to the solid components within the liquid medium to bring the solid components within proximity to contaminants present on the substrate. The force applied to the solid components can be exerted by an immiscible component within the liquid medium. When the solid components are brought within sufficient proximity to the contaminants, an interaction is established between the solid components and the contaminants. Then, the solid components are moved away from the substrate such that the contaminants having interacted with the solid components are removed from the substrate. | 03-11-2010 |
20100139694 | Cleaning Compound and Method and System for Using the Cleaning Compound - A cleaning compound is provided. The cleaning compound includes about 0.1 weight percent to about 10 weight percent of a fatty acid dispersed in water. The cleaning compound includes an amount of a base sufficient to bring a pH of the fatty acid water solution to about a level where above about 50% of the dispersed fatty acid is ionized. A method for cleaning a substrate, a system for cleaning a substrate, and a cleaning solution prepared by a process are also provided. | 06-10-2010 |
20100206340 | Method for Removing Contamination from a Substrate and for Making a Cleaning Solution - A method is provided for removing contamination from a substrate. The method includes applying a cleaning solution having a dispersed phase, a continuous phase and particles dispersed within the continuous phase to a surface of the substrate. The method includes forcing one of the particles dispersed within the continuous phase proximate to one of the surface contaminants. The forcing is sufficient to overcome any repulsive forces between the particles and the surface contaminants so that the one of the particles and the one of the surface contaminants are engaged. The method also includes removing the engaged particle and surface contaminant from the surface of the substrate. A process to manufacture the cleaning material is also provided. | 08-19-2010 |
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 |
20100313443 | SUBSTRATE PROXIMITY DRYING USING IN-SITU LOCAL HEATING OF SUBSTRATE - A method is provided for removing a residual fluid remaining at a point of contact between a substrate support member and a back surface of a substrate being prepared by a proximity head. According to the method, the proximity head is applied onto the back surface of the substrate and the substrate support member being held by a carrier. The substrate support member is heated after the substrate support member passes the proximity head. The heating of the substrate support member is discontinued once the residual fluid has substantially evaporated. | 12-16-2010 |
20100313918 | Apparatus for Cleaning Contaminants from Substrate - A substrate holder is defined to support a substrate. A rotating mechanism is defined to rotate the substrate holder. An applicator is defined to extend over the substrate holder to dispense a cleaning material onto a surface of the substrate when present on the substrate holder. The applicator is defined to apply a downward force to the cleaning material on the surface of the substrate. In one embodiment the cleaning material is gelatinous. | 12-16-2010 |
20100317556 | Two-Phase Substrate Cleaning Material - A cleaning compound is disclosed for removing particulate contaminants from a semiconductor substrate surface. The cleaning compound includes a liquid and carboxylic acid solid components dispersed in a substantially uniform manner in the liquid. A concentration of the carboxylic acid solid components in the liquid exceeds a solubility limit of the carboxylic acid solid components in the liquid. In one embodiment, a concentration of the carboxylic acid solid components in the liquid is within a range extending from about 3 percent by weight to about 5 percent by weight. In one embodiment, the carboxylic acid solid components are defined by a carbon number of at least four. The carboxylic acid solid components are defined to interact with the particulate contaminants on the semiconductor substrate surface to remove the particulate contaminants from the semiconductor substrate surface. The cleaning compound is viscous and may be formed as a gel. | 12-16-2010 |
20100331226 | Damage-Free High Efficiency Particle Removal Clean - A system, method and an apparatus to remove contaminants from a semiconductor substrate surface includes application of a cleaning material. The cleaning material includes a cleaning solution and a plurality of micron-sized dry polyvinyl particles dispersed in the cleaning solution. The cleaning solution is a single phase polymeric compound that is made of long polymeric chains and exhibits distinct viscoelastic properties. The plurality of micron-sized dry polyvinyl alcohol particles absorb the liquid in the cleaning solution and become uniformly suspended within the cleaning material. The suspended polyvinyl alcohol particles interact with at least some of contaminants on the semiconductor substrate surface to release and remove the contaminants from the substrate surface. The released contaminants are entrapped within the cleaning material and removed with the cleaning material leaving behind a substantially clean substrate surface. | 12-30-2010 |
20110008916 | Proximity Head Heating Method and Apparatus - Provided is an apparatus and a method for heating fluid in a proximity head. A method for semiconductor wafer processing, includes providing liquid to a proximity head including a heating portion, heating the liquid within the heating portion of the proximity head and delivering the heated liquid to a surface of a semiconductor wafer for use in a wafer processing operation including forming a meniscus between the proximity head and the surface of the semiconductor wafer. | 01-13-2011 |
20110061687 | Apparatus for Contained Chemical Surface Treatment - Apparatuses for preparing a surface of a substrate using a proximity head includes a carrier to hold and move the substrate along an axis and a proximity head having a head surface with a plurality of outlet ports defined thereon. The proximity head is defined to be positioned proximate and over the carrier and the surface of the substrate. A length of the head surface of the proximity head is defined to be greater than a diameter of the substrate and at least partially overlapping over the carrier when the substrate is present. The proximity head includes a first set of outlet ports in a first region defining a first applicator that is configured to apply a non-Newtonian fluid between a surface of the carrier and the head surface of the proximity head. A second set of outlet ports in a second region of the proximity head defines a second applicator that is configured to apply a first chemistry to the surface of the substrate when present. The second region is adjacent to the first region. A third set of outlet ports in a third region of the proximity head defines a third applicator that is configured to apply the non-Newtonian fluid between the head surface of the proximity head and the surface of the substrate when present. The third region is defined adjacent to the second region. A fourth set of outlet ports is defined in the second region of the proximity head to substantially remove the first chemistry from the surface of the substrate when present. | 03-17-2011 |
20110065621 | MATERIAL FOR CLEANING A SUBSTRATE - Material for cleaning using a tri-state body are disclosed. A substrate having a particle deposited thereon is provided. A tri-state body that has a solid portion, liquid portion, and a gas portion is generated. A force is applied over the tri-state body to promulgate an interaction between the solid portion and the particle. The tri-state body is removed along with the particle from the surface of the substrate. The interaction between the solid portion and the particle causes the particle to be removed along with the tri-state body. | 03-17-2011 |
20110139183 | SYSTEM AND METHOD OF PREVENTING PATTERN COLLAPSE USING LOW SURFACE TENSION FLUID - A system for processing a wafer with a low surface tension liquid includes a low surface tension liquid source including a first heat source capable of heating the low surface tension liquid to not more than 25 degrees C. less than boiling point of the low surface tension liquid, a delivery mechanism for delivering the heated low surface tension liquid to an air/liquid interface region and a second heat source directed toward the air/liquid interface region, the second heat source capable of heating the air/liquid interface region to at least 2 degrees C. greater than the boiling point of the low surface tension liquid. A method for processing a wafer with a low surface tension liquid is also described. | 06-16-2011 |
20110183522 | METHOD AND APPARATUS FOR PATTERN COLLAPSE FREE WET PROCESSING OF SEMICONDUCTOR DEVICES - A method is provided for processing a wafer used in fabricating semiconductor devices. The method can comprise forming high-aspect ratio features on the wafer, which is followed by wet processing and drying. During drying, pattern collapse can occur. This pattern collapse can be repaired to allow for additional processing of the wafer. In some instance, pattern collapse can be repaired via etching where the etching breaks bonds that can have formed during pattern collapse. | 07-28-2011 |
20110189858 | METHOD FOR REDUCING PATTERN COLLAPSE IN HIGH ASPECT RATIO NANOSTRUCTURES - A method is provided for treating the surface of high aspect ratio nanostructures to help protect the delicate nanostructures during some of the rigorous processing involved in fabrication of semiconductor devices. A wafer containing high aspect ratio nanostructures is treated to make the surfaces of the nanostructures more hydrophobic. The treatment may include the application of a primer that chemically alters the surfaces of the nanostructures preventing them from getting damaged during subsequent wet clean processes. The wafer may then be further processed, for example a wet cleaning process followed by a drying process. The increased hydrophobicity of the nanostructures helps to reduce or prevent collapse of the nanostructures. | 08-04-2011 |
20110294299 | METHOD AND APPARATUS FOR SILICON OXIDE RESIDUE REMOVAL - A method for removing silicon oxide based residue from a stack with a doped silicon oxide layer with features with diameters less than 100 nm is provided. A wet clean solution of between 25% to 60% by weight of NH | 12-01-2011 |
20120260517 | Apparatus and Method for Reducing Substrate Pattern Collapse During Drying Operations - Apparatuses and methods for drying a surface of a substrate includes a proximity drying head having a head body that includes a process surface configured to be disposed opposite a surface of a substrate when present. The process surface includes a first region, a second region and a third region. The first region is defined at a leading edge of the head body and includes a cavity region that is recessed into the head body. The cavity region includes a plurality of inlet ports that are used to introduce a vapor fluid to the cavity region. The second region is disposed proximate to the surface of the substrate when present and is located beside the first region. The third region is disposed proximate to the surface of the substrate when present and is located beside the second region. A plurality of vacuum ports is defined at the interface of the second region and the third region. The third region includes a plurality of angled inlet ports that are directed toward the second region. A method for performing a drying operation includes applying heated isopropyl alcohol as vapor to a wafer surface in the first region and heating the underside region of the wafer corresponding to the first region. Heated Nitrogen is injected to the surface of the wafer in the third region. The deionized water and isopropyl alcohol are removed from the surface of the wafer through the vacuum ports along with the Nitrogen so as to leave the wafer surface substantially dry. | 10-18-2012 |
20130068261 | 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. | 03-21-2013 |
20130284217 | Substrate Cleaning System Using Stabilized Fluid Solutions - A substrate cleaning systems are provided. One system includes a proximity head system for applying a meniscus to a surface of a substrate during a cleaning operation. Also provided is a container for holding the solution, the solution being mixed from at least a continuous medium, a polymer material, and a solid material, the polymer material in the solution imparting a finite yield stress to the material, such that the solution is maintained in a stable elastic gel form. A pump coupled to the container is also provided for moving the solution from the container to the proximity head system, where the pump applies at least a minimum shear stress on the solution. The pump provides agitation that exceeds the finite yield stress causing the solution to flow. A conduit is provided between the container and the proximity head system. | 10-31-2013 |
20140059789 | Apparatus for Cleaning a Semiconductor Substrate - An apparatus for processing a substrate is provided. The apparatus includes a solid material having a support side and a contact side. The contact side has an outer surface, and the outer surface is configured to become softer relative to a remainder of the solid material when exposed to an activation solution. The apparatus includes a support structure configured to support the solid material from the support side of the solid material, such that the contact side of the solid material is oriented to face a surface of the substrate, when the substrate is present. Also provided is a gimbaled structure connected to the support structure. The gimbaled structure enabling the outer surface of the contact side to substantially align in a coplanar arrangement with the surface of the substrate, when the substrate is present. A force application structure is coupled to the gimbaled structure. The force application structure is configured for moving the solid material toward and away from the surface of the substrate, when the substrate is present, and further configured for applying a force that presses the outer surface of the solid material against the surface of the substrate, when the substrate is present. | 03-06-2014 |
20140116476 | Systems for Surface Treatment of Semiconductor Substrates using Sequential Chemical Applications - Systems for removing post etch polymer residue from etched surface includes a first proximity head to introduce a first cleaning chemistry as a first meniscus to a portion of the surface of the substrate so as to cover a length that extends to at least a diameter of the substrate and a first width that is less than the diameter of the substrate. A second proximity head is configured to introduce a second cleaning chemistry as a second meniscus to the portion so as to cover the length that extends to the diameter and a second width that is less than the diameter of the substrate. A substrate supporting device equipped with a motor coupled to a computing system is used to move the substrate supporting device under the first proximity head at a first linear speed and under the second proximity head at a second linear speed. | 05-01-2014 |
20150040941 | Method and Apparatus for Cleaning A Semiconductor Substrate - A method for cleaning a substrate is provided. The method initiates with disposing a fluid layer having solid components therein to a surface of the substrate. A shear force directed substantially parallel to the surface of the substrate and toward an outer edge of the substrate is then created. The shear force may result from a normal or tangential component of a force applied to a solid body in contact with the fluid layer in one embodiment. The surface of the substrate is rinsed to remove the fluid layer. A cleaning system and apparatus are also provided. | 02-12-2015 |
20150040947 | Method and Systems for Cleaning A Substrate - An apparatus for cleaning a substrate is disclosed. The apparatus having a first head unit and a second head unit. The first head unit is positioned proximate to the surface of the substrate and has a first row of channels defined within configured to supply a foam to the surface of the substrate. The second head unit is positioned substantially adjacent to the first head unit and proximate to the surface of the substrate. A second and a third row of channels are defined within the second head unit. The second row of channels is configured to supply a fluid to the surface of the substrate. The third row of channels is configured to apply a vacuum to the surface of the substrate. | 02-12-2015 |