Patents by Inventor Pradip K. Roy
Pradip K. Roy has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 10220487Abstract: The present application relates to polishing pads for chemical mechanical planarization (CMP) of substrates, and methods of fabrication and use thereof. The pads described in this invention are customized to polishing specifications where specifications include (but not limited to) to the material being polished, chip design and architecture, chip density and pattern density, equipment platform and type of slurry used. These pads can be designed with a specialized polymeric nano-structure with a long or short range order which allows for molecular level tuning achieving superior thermo-mechanical characteristics. More particularly, the pads can be designed and fabricated so that there is both uniform and nonuniform spatial distribution of chemical and physical properties within the pads.Type: GrantFiled: February 12, 2016Date of Patent: March 5, 2019Assignee: Cabot Microelectronics CorporationInventors: Pradip K. Roy, Manish Deopura, Sudhanshu Misra
-
Publication number: 20160229025Abstract: The present application relates to polishing pads for chemical mechanical planarization (CMP) of substrates, and methods of fabrication and use thereof. The pads described in this invention are customized to polishing specifications where specifications include (but not limited to) to the material being polished, chip design and architecture, chip density and pattern density, equipment platform and type of slurry used. These pads can be designed with a specialized polymeric nano-structure with a long or short range order which allows for molecular level tuning achieving superior thermo-mechanical characteristics. More particularly, the pads can be designed and fabricated so that there is both uniform and nonuniform spatial distribution of chemical and physical properties within the pads.Type: ApplicationFiled: February 12, 2016Publication date: August 11, 2016Inventors: Pradip K. ROY, Manish DEOPURA, Sudhanshu MISRA
-
Patent number: 9278424Abstract: The present application relates to polishing pads for chemical mechanical planarization (CMP) of substrates, and methods of fabrication and use thereof. The pads described in this invention are customized to polishing specifications where specifications include (but not limited to) to the material being polished, chip design and architecture, chip density and pattern density, equipment platform and type of slurry used. These pads can be designed with a specialized polymeric nano-structure with a long or short range order which allows for molecular level tuning achieving superior themo-mechanical characteristics. More particularly, the pads can be designed and fabricated so that there is both uniform and nonuniform spatial distribution of chemical and physical properties within the pads.Type: GrantFiled: September 17, 2014Date of Patent: March 8, 2016Assignee: NexPlanar CorporationInventors: Pradip K Roy, Manish Deopura, Sudhanshu Misra
-
Publication number: 20150093977Abstract: Methods for producing in-situ grooves in CMP pads are provided. In general, the methods for producing in-situ grooves comprise the steps of patterning a silicone lining, placing the silicone lining in, or on, a mold, adding CMP pad material to the silicone lining, and allowing the CMP pad to solidify. CMP pads comprising novel groove designs are also described. For example, described here are CMP pads comprising concentric circular grooves and axially curved grooves, reverse logarithmic grooves, overlapping circular grooves, lassajous groves, double spiral grooves, and multiply overlapping axially curved grooves. The CMP pads may be made from polyurethane, and the grooves produced therein may be made by a method from the group consisting of silicone lining, laser writing, water jet cutting, 3-D printing, thermoforming, vacuum forming, micro-contact printing, hot stamping, and mixtures thereof.Type: ApplicationFiled: December 5, 2014Publication date: April 2, 2015Inventors: Manish Deopura, Hem M. Vaidya, Pradip K. Roy
-
Publication number: 20150065020Abstract: The present application relates to polishing pads for chemical mechanical planarization (CMP) of substrates, and methods of fabrication and use thereof. The pads described in this invention are customized to polishing specifications where specifications include (but not limited to) to the material being polished, chip design and architecture, chip density and pattern density, equipment platform and type of slurry used. These pads can be designed with a specialized polymeric nano-structure with a long or short range order which allows for molecular level tuning achieving superior themo-mechanical characteristics. More particularly, the pads can be designed and fabricated so that there is both uniform and nonuniform spatial distribution of chemical and physical properties within the pads.Type: ApplicationFiled: September 17, 2014Publication date: March 5, 2015Inventors: Pradip K. Roy, Manish Deopura, Sudhanshu Misra
-
Patent number: 8932116Abstract: Methods for producing in-situ grooves in CMP pads are provided. In general, the methods for producing in-situ grooves comprise the steps of patterning a silicone lining, placing the silicone lining in, or on, a mold, adding CMP pad material to the silicone lining, and allowing the CMP pad to solidify. CMP pads comprising novel groove designs are also described. For example, described here are CMP pads comprising concentric circular grooves and axially curved grooves, reverse logarithmic grooves, overlapping circular grooves, lassajous groves, double spiral grooves, and multiply overlapping axially curved grooves. The CMP pads may be made from polyurethane, and the grooves produced therein may be made by a method from the group consisting of silicone lining, laser writing, water jet cutting, 3-D printing, thermoforming, vacuum forming, micro-contact printing, hot stamping, and mixtures thereof.Type: GrantFiled: September 12, 2012Date of Patent: January 13, 2015Assignee: NexPlanar CorporationInventors: Manish Deopura, Hem M. Vaidya, Pradip K. Roy
-
Patent number: 8864859Abstract: The present application relates to polishing pads for chemical mechanical planarization (CMP) of substrates, and methods of fabrication and use thereof. The pads described in this invention are customized to polishing specifications where specifications include (but not limited to) to the material being polished, chip design and architecture, chip density and pattern density, equipment platform and type of slurry used. These pads can be designed with a specialized polymeric nano-structure with a long or short range order which allows for molecular level tuning achieving superior thermo-mechanical characteristics. More particularly, the pads can be designed and fabricated so that there is both uniform and nonuniform spatial distribution of chemical and physical properties within the pads.Type: GrantFiled: November 28, 2007Date of Patent: October 21, 2014Assignee: NexPlanar CorporationInventors: Pradip K. Roy, Manish Deopura, Sudhanshu Misra
-
Patent number: 8715035Abstract: The present application relates to polishing pads for chemical mechanical planarization (CMP) of substrates, and methods of fabrication and use thereof. The pads described in this invention are customized to polishing specifications where specifications include (but not limited to) to the material being polished, chip design and architecture, chip density and pattern density, equipment platform and type of slurry used. These pads can be designed with a specialized polymeric nano-structure with a long or short range order which allows for molecular level tuning achieving superior thermo-mechanical characteristics. More particularly, the pads can be designed and fabricated so that there is both uniform and nonuniform spatial distribution of chemical and physical properties within the pads.Type: GrantFiled: February 21, 2006Date of Patent: May 6, 2014Assignee: NexPlanar CorporationInventors: Pradip K. Roy, Manish Deopura, Sudhanshu Misra
-
Publication number: 20130059509Abstract: Methods for producing in-situ grooves in CMP pads are provided. In general, the methods for producing in-situ grooves comprise the steps of patterning a silicone lining, placing the silicone lining in, or on, a mold, adding CMP pad material to the silicone lining, and allowing the CMP pad to solidify. CMP pads comprising novel groove designs are also described. For example, described here are CMP pads comprising concentric circular grooves and axially curved grooves, reverse logarithmic grooves, overlapping circular grooves, lassajous groves, double spiral grooves, and multiply overlapping axially curved grooves. The CMP pads may be made from polyurethane, and the grooves produced therein may be made by a method from the group consisting of silicone lining, laser writing, water jet cutting, 3-D printing, thermoforming, vacuum forming, micro-contact printing, hot stamping, and mixtures thereof.Type: ApplicationFiled: September 12, 2012Publication date: March 7, 2013Inventors: Manish Deopura, Hem M. Vaidya, Pradip K. Roy
-
Patent number: 8380339Abstract: A polishing pad for chemical mechanical planarization of a film on a substrate is customized by obtaining one or more characteristics of a structure on a substrate. For example, when the structure is a chip formed on a semiconductor wafer, the one or more characteristics of the structure can include chip size, pattern density, chip architecture, film material, film topography, and the like. Based on the one or more characteristics of the structure, a value for the one or more chemical or physical properties of the pad is selected. For example, the one or more chemical or physical properties of the pad can include pad material hardness, thickness, surface grooving, pore size, porosity, Youngs modulus, compressibility, asperity, and the like.Type: GrantFiled: April 26, 2010Date of Patent: February 19, 2013Assignee: NexPlanar CorporationInventors: Sudhanshu Misra, Pradip K. Roy
-
Patent number: 8287793Abstract: Methods for producing in-situ grooves in CMP pads are provided. In general, the methods for producing in-situ grooves comprise the steps of patterning a silicone lining, placing the silicone lining in, or on, a mold, adding CMP pad material to the silicone lining, and allowing the CMP pad to solidify. CMP pads comprising novel groove designs are also described. For example, described here are CMP pads comprising concentric circular grooves and axially curved grooves, reverse logarithmic grooves, overlapping circular grooves, lassajous grooves, double spiral grooves, and multiple overlapping axially curved grooves. The CMP pads may be made from polyurethane, and the grooves produced therein may be made by a method from the group consisting of silicone lining, laser writing, water jet cutting, 3-D printing, thermoforming, vacuum forming, micro-contact printing, hot stamping, and mixtures thereof.Type: GrantFiled: November 28, 2007Date of Patent: October 16, 2012Assignee: NexPlanar CorporationInventors: Manish Deopura, Hem M. Vaidya, Pradip K. Roy
-
Patent number: 8029849Abstract: A multi-piece food product (10) comprising a plurality of strands (12A-12K) that are extruded and aggregated to form an aesthetically pleasing food product is provided. A formulation used to make each of the strands (12A-12K) includes a mixture comprising at least 20% sweetener, at least 15% starchy material, and at least 1% fruit by weight based a total dry weight of the mixture to yield a starch-based confectionary food product. One process for forming the multi-piece food product (10) includes extruding a food stream from a slurry, dividing the food stream into three separate food streams (24A, 24B), injecting color, flavor, and ascorbic acid into the food streams (24A, 24B), conveying the food streams (24A, 24B) into a former (26) and extruding the strands (12A-12K) therefrom, forming the strands (12A, 12B) into an aggregate food mass (31), cooling the food mass (31), and cutting the food mass (31) into individual portions.Type: GrantFiled: September 17, 2004Date of Patent: October 4, 2011Assignee: Kellogg CompanyInventors: Stephen B. Richey, Guoshen Yang, Myung Hee Lohman, Mary E. Steele, Brian M. Reifsteck, Pradip K. Roy, Sylvia L. Schonauer
-
Patent number: 7831123Abstract: The invention provides a waveguide with a waveguide core having longitudinal sidewall surfaces, a longitudinal top surface, and a longitudinal bottom surface that is disposed on a substrate. An interface layer is disposed on at least one longitudinal sidewall surface of the waveguide core. A waveguide cladding layer is disposed on at least the waveguide core sidewall and top surfaces, over the interface layer. The waveguide of the invention can be produced by forming a waveguide undercladding layer on a substrate, and then forming a waveguide core on the undercladding layer. An interface layer is then formed on at least a longitudinal sidewall surface of the waveguide core, and an upper cladding layer is formed on a longitudinal top surface and on longitudinal sidewall surfaces of the waveguide core, over the interface layer.Type: GrantFiled: September 5, 2007Date of Patent: November 9, 2010Assignee: Massachusetts Institute of TechnologyInventors: Daniel K. Sparacin, Anuradha M. Agarwal, Pradip K. Roy, Lionel C. Kimerling
-
Publication number: 20100273398Abstract: A polishing pad for chemical mechanical planarization of a film on a substrate is customized by obtaining one or more characteristics of a structure on a substrate. For example, when the structure is a chip formed on a semiconductor wafer, the one or more characteristics of the structure can include chip size, pattern density, chip architecture, film material, film topography, and the like. Based on the one or more characteristics of the structure, a value for the one or more chemical or physical properties of the pad is selected. For example, the one or more chemical or physical properties of the pad can include pad material hardness, thickness, surface grooving, pore size, porosity, Youngs modulus, compressibility, asperity, and the like.Type: ApplicationFiled: April 26, 2010Publication date: October 28, 2010Inventors: Sudhanshu Misra, Pradip K. Roy
-
Patent number: 7737051Abstract: A method for using a silicon germanium (SiGe) surface layer to integrate a high-k dielectric layer into a semiconductor device. The method forms a SiGe surface layer on a substrate and deposits a high-k dielectric layer on the SiGe surface layer. An oxide layer, located between the high-k dielectric layer and an unreacted portion of the SiGe surface layer, is formed during one or both of deposition of the high-k dielectric layer and an annealing process after deposition of the high-k dielectric layer. The method further includes forming an electrode layer on the high-k dielectric layer.Type: GrantFiled: March 10, 2004Date of Patent: June 15, 2010Assignee: Tokyo Electron LimitedInventors: Anthony Dip, Pradip K. Roy, Sanjeev Kaushal, Allen J. Leith, Seungho Oh, Raymond Joe
-
Patent number: 7704122Abstract: A polishing pad for chemical mechanical planarization of a film on a substrate is customized by obtaining one or more characteristics of a structure on a substrate. For example, when the structure is a chip formed on a semiconductor wafer, the one or more characteristics of the structure can include chip size, pattern density, chip architecture, film material, film topography, and the like. Based on the one or more characteristics of the structure, a value for the one or more chemical or physical properties of the pad is selected. For example, the one or more chemical or physical properties of the pad can include pad material hardness, thickness, surface grooving, pore size, porosity, Youngs modulus, compressibility, asperity, and the like.Type: GrantFiled: November 28, 2007Date of Patent: April 27, 2010Assignee: NexPlanar CorporationInventors: Sudhanshu Misra, Pradip K. Roy
-
Patent number: 7704125Abstract: The present application relates to polishing pads for chemical mechanical planarization (CMP) of substrates, and methods of fabrication and use thereof. The pads described in this invention are customized to polishing specifications where specifications include (but not limited to) to the material being polished, chip design and architecture, chip density and pattern density, equipment platform and type of slurry used. These pads can be designed with a specialized polymeric nano-structure with a long or short range order which allows for molecular level tuning achieving superior thermo-mechanical characteristics. More particularly, the pads can be designed and fabricated so that there is both uniform and nonuniform spatial distribution of chemical and physical properties within the pads.Type: GrantFiled: October 14, 2005Date of Patent: April 27, 2010Assignee: NexPlanar CorporationInventors: Pradip K. Roy, Manish Deopura, Sudhanshu Misra
-
Publication number: 20090053976Abstract: The present application relates to polishing pads for chemical mechanical planarization (CMP) of substrates, and methods of fabrication and use thereof. The pads described in this invention are customized to polishing specifications where specifications include (but not limited to) to the material being polished, chip design and architecture, chip density and pattern density, equipment platform and type of slurry used. These pads can be designed with a specialized polymeric nano-structure with a long or short range order which allows for molecular level tuning achieving superior thermo-mechanical characteristics. More particularly, the pads can be designed and fabricated so that there is both uniform and nonuniform spatial distribution of chemical and physical properties within the pads.Type: ApplicationFiled: February 21, 2006Publication date: February 26, 2009Inventors: Pradip K. Roy, Manish Deopura, Sudhanshu Misra
-
Publication number: 20080253728Abstract: The invention provides a waveguide with a waveguide core having longitudinal sidewall surfaces, a longitudinal top surface, and a longitudinal bottom surface that is disposed on a substrate. An interface layer is disposed on at least one longitudinal sidewall surface of the waveguide core. A waveguide cladding layer is disposed on at least the waveguide core sidewall and top surfaces, over the interface layer. The waveguide of the invention can be produced by forming a waveguide undercladding layer on a substrate, and then forming a waveguide core on the undercladding layer. An interface layer is then formed on at least a longitudinal sidewall surface of the waveguide core, and an upper cladding layer is formed on a longitudinal top surface and on longitudinal sidewall surfaces of the waveguide core, over the interface layer.Type: ApplicationFiled: September 5, 2007Publication date: October 16, 2008Applicant: Massachusetts Institute of TechnologyInventors: Daniel K. Sparacin, Anuradha M. Agarwal, Pradip K. Roy, Lionel C. Kimerling
-
Patent number: 7425172Abstract: A polishing pad for chemical mechanical planarization of a film on a substrate is customized by obtaining one or more characteristics of a structure on a substrate. For example, when the structure is a chip formed on a semiconductor wafer, the one or more characteristics of the structure can include chip size, pattern density, chip architecture, film material, film topography, and the like. Based on the one or more characteristics of the structure, a value for the one or more chemical or physical properties of the pad is selected. For example, the one or more chemical or physical properties of the pad can include pad material hardness, thickness, surface grooving, pore size, porosity, Youngs modulus, compressibility, asperity, and the like.Type: GrantFiled: March 25, 2004Date of Patent: September 16, 2008Assignee: NexPlanar CorporationInventors: Sudhanshu Misra, Pradip K. Roy