1
Nathaniel Brese Martin Bayes Martin Bayes
Nathaniel E Brese, Edit Szocs, Felix J Schwager, Michael P Toben, Martin W Bayes: Electrochemically deposited indium composites. Rohm and Haas Electronic Materials, John J Piskorski, Rohm and Haas Electronic Materials, March 19, 2009: US20090075102-A1

Electrochemically deposited indium composites are disclosed. The indium composites include indium metal or an alloy of indium with one or more ceramic materials. The indium composites have high bulk thermal conductivities. Articles containing the indium composites also are disclosed.


2
David Mosley Garo Khanarian
Garo Khanarian, David Wayne Mosley: Heat stable aryl polysiloxane compositions. Rohm and Haas Company, Jonathan D Baskin, March 27, 2012: US08142895 (2 worldwide citation)

A curable aryl siloxane composition is disclosed. A heat stable cured aryl polysiloxane composition is further disclosed, along with a method of making that heat stable cured aryl polysiloxane composition from the curable aryl siloxane composition. An encapsulated semiconductor device, and a method ...


3
David Mosley Garo Khanarian
David Wayne Mosley, Garo Khanarian: Aryl (thio)ether aryl polysiloxane composition and methods for making and using same. Rohm and Haas Company, Jonathan D Baskin, October 4, 2011: US08029904 (1 worldwide citation)

A curable aryl (thio)ether aryl silicon composition is disclosed. A cured aryl (thio)ether aryl polysiloxane composition is further disclosed, along with a method of making that cured aryl (thio)ether aryl polysiloxane composition from the curable aryl (thio)ether aryl silicon composition. An encaps ...


4
David Mosley Garo Khanarian
David Wayne Mosley, Garo Khanarian: Aryl (thio)ether aryl polysiloxane composition and methods for making and using same. Rohm And Haas Company, July 3, 2008: US20080160323-A1

A curable aryl (thio)ether aryl silicon composition is disclosed. A cured aryl (thio)ether aryl polysiloxane composition is further disclosed, along with a method of making that cured aryl (thio)ether aryl polysiloxane composition from the curable aryl (thio)ether aryl silicon composition. An encaps ...


5
Dr Raj C Thiagarajan ATOA Scientific Technologies Dr Raj C Thiagarajan ATOA Scientific Technologies
Tansen Dhananjay Chaudhari, Chinniah Thiagarajan, Poovanna Kushalappa Theethira, Stephen Shuler, Eric Jon Jaarda: Energy absorbing articles. General Electric Company, Fletcher Yoder, January 9, 2007: US07160621 (30 worldwide citation)

An article comprises a plurality of auxetic structures wherein the auxetic structures are of size greater than about 1 mm. The article also comprises at least one cell boundary that is structurally coupled to the auxetic structures. The cell boundary is configured to resist a deformation of the auxe ...


6
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 (6 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 ...


7
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 (1 worldwide citation)

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 ...


8
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.


9
Dr Raj C Thiagarajan ATOA Scientific Technologies Dr Raj C Thiagarajan ATOA Scientific Technologies
Ravi Sriraman, Chinniah Thiagarajan, Ajay Taraiya: Reflective polymeric article and manufacture. Sabic Global Technologies, Cantor Colburn, December 9, 2014: US08908129

In one embodiment, the method for making a polymer article comprises: orienting polymer chains in one direction more than any other direction to form an oriented article, contacting the oriented article with a foaming agent, and foaming the material to form the reflective polymer article comprising ...


10
Dr Raj C Thiagarajan ATOA Scientific Technologies Dr Raj C Thiagarajan ATOA Scientific Technologies
Chinniah Thiagarajan, Praveen Bhat: Multiwall sheet, an article, a method of making a multiwall sheet. Sabic Innovative Plastics IP, Cantor Colburn, October 25, 2011: US08043688

In one embodiment, a multiwall sheet comprises a first sheet comprising an inner surface and an outer surface, a second sheet comprising a first surface and a second surface; and a rib disposed between the inner surface and the first surface. The outer layer can have surface features and has a surfa ...



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