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Dr Raj C Thiagarajan ATOA Scientific Technologies Dr Raj C Thiagarajan ATOA Scientific Technologies
Chinniah Thiagarajan, Gautam Chatterjee, Ravi Sriraman, Santhosh Kumar Rajendran, Anand Vaidyalingam: Polymeric foams with nanocellular morphology and methods for making them. Sabic Innovative Plastics IP, Cantor Colburn, November 30, 2010: US07842379

Polymeric foams having nanocellular morphology are formed from a polymeric material having structural units derived from 2-hydrocarbyl-3,3-bis(hydroxyphenyl)phthalimidine compound. The foams include a plurality of cells having an average diameter of less than 1 micron. Processes for forming the foam ...


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Private Ugochukwu Njoku
John R Flanagan, Daniel F Casper, Catherine C Huang, Matthew J Kalos, Ugochukwu C Njoku, Dale F Riedy, Gustav E Sittmann: Processing a variable length device command word at a control unit in an I/O processing system. International Business Machines Corporation, Cantor Colburn, John Campbell, November 23, 2010: US07840717 (44 worldwide citation)

A computer program product, apparatus and method for processing a variable length device command word (DCW) at a control unit configured for communication with an input/output (I/O) subsystem in an I/O processing system. The computer program product includes a tangible storage medium readable by a p ...


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Dr Raj C Thiagarajan ATOA Scientific Technologies Dr Raj C Thiagarajan ATOA Scientific Technologies
Chinniah Thiagarajan, Ravi Sriraman, Tansen Dhananjay Chaudhari, Muniratnam Kumar, Vlkash Kumar Sinha, Asim Pattanayak: Nano-cellular polymer foam and methods for making them. Sabic Innovative Plastics IP, Cantor Colburn, November 23, 2010: US07838108 (1 worldwide citation)

A nano-cellular polymer foam is disclosed, which has an average pore size from about 10 nanometers to about 500 nanometers; and a foam density that is from about 1 percent to about 50 percent of the bulk density of the material of the nano-cellular foam.


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Dr Raj C Thiagarajan ATOA Scientific Technologies Dr Raj C Thiagarajan ATOA Scientific Technologies
Adi Narayana Namburi, Hayagreeva Rao, Chinniah Thiagarajan: Composite material for turbine support structure. General Electric Company, Sutherland Asbill & Brennan, November 2, 2010: US07824763 (2 worldwide citation)

A composite material for use in turbine support structures. The composite material may include a first material having a positive coefficient of thermal expansion and a second material having a negative coefficient of thermal expansion, a negative Poisson ratio, or both a negative coefficient of the ...


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Nathaniel Brese
Peter R Levey, Nathaniel E Brese: Catalyst composition and deposition method. Rohm and Haas Electronic Materials, John J Piskorski, November 30, 2010: US07842636

Compositions and methods for depositing one or more metal or metal alloy films on substrates. The compositions contain a catalyst, one or more carrier particles and one or more water-soluble or water-dispersible organic compounds. Metal or metal alloys may be deposited on the substrates by electrole ...


6
James Kraemer Ph.D.
Robert L Angell, James R Kraemer: Environmentally sensitive electronic device. International Business Machines Corporation, Dillon & Yudell, November 30, 2010: US07843317 (2 worldwide citation)

An electronic device has at least one component that is coated with a material that is non-persistent if exposed to a specific environmental condition. If the coating is stripped off by the specific environmental condition, the previously coated component's function is altered, causing a functionali ...


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David Sherrer
Jean Marc Rollin, David W Sherrer: Integrated electronic components and methods of formation thereof. Sherr & Vaughn Pllc, November 25, 2010: US20100296252-A1

Provided are integrated electronic components which include a waveguide microstructure formed by a sequential build process and an electronic device, and methods of forming such integrated electronic components. The microstructures have particular applicability to devices for transmitting electromag ...


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Nathan Allen
Nathan T Allen, Andrew G Batzell, Ward T Brown, Martin Heuts: Opacifying pigment particle. Rohm And Haas Company, November 25, 2010: US20100298484-A1

A process for forming an opacifying pigment encapsulated in polymer including (a) dispersing a pigment particle having an average particle diameter of from 150 to 500 nm and an index of refraction of at least 1.8 such as, for example, TiO2 in a medium with from 0.1% to 10% by weight, based on the we ...


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Nathan Allen
Nathan T Allen, Andrew G Batzell, Ward T Brown, Karl A Bromm: Opacifying pigment particle. Rohm And Haas Company, November 25, 2010: US20100298483-A1

An opacifying pigment that includes a pigment particle having an average particle diameter of from 0.005 to 5 microns and an index of refraction of at least 1.8 such as, for example TiO2, at least partially encapsulated in polymer is provided. Also provided are processes for forming the encapsulated ...


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Young Bae
Young Cheol BAE, Yi Liu, Thomas Cardolaccia, Peter Trefonas III: Compositions and methods for multiple exposure photolithography. Rohm and Haas Electronic Materials, Jonathan D Baskin, Rohm and Haas Electronic Materials, November 25, 2010: US20100297851-A1

Compositions for use in multiple exposure photolithography and methods of forming electronic devices using a multiple exposure lithographic process are provided. The compositions find particular applicability in semiconductor device manufacture for making high-density lithographic patterns.



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