1
Dana Gronbeck Jeffrey Calvert
Michael K Gallagher, Dana A Gronbeck, Timothy G Adams, Jeffrey M Calvert: Electronic devices having air gaps. Rohm and Haas Electronic Materials, Jonathan D Baskin, May 25, 2010: US07723850 (8 worldwide citation)

A method of forming air gaps within a solid structure is provided. In this method, a sacrificial material is covered by an overlayer. The sacrificial material is then removed through the overlayer to leave an air gap. Such air gaps are particularly useful as insulation between metal lines in an elec ...


2
Dr Raj C Thiagarajan ATOA Scientific Technologies Dr Raj C Thiagarajan ATOA Scientific Technologies
Chinniah Thiagarajan, Frans Adriaansen, Jyotiba Baburao Suryawanshi, Ganesh Chandan Gangadharan: Polymer panels and methods of making the same. Sabic Innovative Plastics IP, Cantor Colburn, August 9, 2011: US07992361 (5 worldwide citation)

Disclosed herein are multiwall panels comprising micro-scale surface features and methods of making the same. In one embodiment, a multiwall panel is disclosed. The multiwall panel comprises, a top sheet, a bottom sheet, a rib disposed between and connected to the top sheet and the bottom sheet, and ...


3
Sandeep Tyagi Sandeep Tyagi
James Louis DeRudder, Raja Krishnamurthy, Rajashekhar Shiddappa Totad, Sandeep Tyagi, Robert Walter Venderbosch: Thermoplastic polycarbonate compositions with low gloss, articles made therefrom and method of manufacture. SABIC Innovative Plastics IP, January 19, 2010: US07649057 (2 worldwide citation)

A thermoplastic composition comprising a polycarbonate, an impact modifier, an aromatic vinyl copolymer, and a polyorganosiloxane has excellent mechanical properties, in addition to suitable low gloss performance. An article may be formed by molding, extruding, shaping or forming such a composition ...


4
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 ...


5
Maricela Morales Charles Szmanda
Charles R Szmanda, George G Barclay, Peter Trefonas, Wang Yueh: Polymer and photoresist compositions. Shipley Company, S Matthew Cairns, c o EDWARDS & ANGELL, October 31, 2002: US20020160302-A1 (1 worldwide citation)

Disclosed are spirocyclic olefin polymers, methods of preparing spirocyclic olefin polymers, photoresist compositions including spirocyclic olefin resin binders and methods of forming relief images using such photoresist compositions.


6
Maricela Morales Charles Szmanda
Charles R Szmanda, George G Barclay, Peter Trefonas, Wang Yueh: Polymer and photoresist compositions. Shipley Company, Edwards & Angell, Dike Bronstein Roberts & Cushman IP Group, November 21, 2002: US20020173680-A1 (1 worldwide citation)

Disclosed are spirocyclic olefin polymers, methods of preparing spirocyclic olefin polymers, photoresist compositions including spirocyclic olefin resin binders and methods of forming relief images using such photoresist compositions.


7
Dr Raj C Thiagarajan ATOA Scientific Technologies Dr Raj C Thiagarajan ATOA Scientific Technologies
Santhosh Kumar Rajendran, Vikash Kumar Sinha, Ravi Sriraman, Chinniah Thiagarajan, Rajappan Vetrivel: Polymeric foams with nanocellular morphology and methods for making them. Sabic Innovative Plastics IP, Cantor Colburn, May 14, 2013: US08440732

A foamable polymeric composition can comprise a polymer, a blowing agent cage material, and a blowing agent. The blowing agent cage material is selected from the group consisting of zeolite imidazolate framework, metal organic framework, carbon cage structure, and combinations comprising at least on ...


8
Dr Raj C Thiagarajan ATOA Scientific Technologies Dr Raj C Thiagarajan ATOA Scientific Technologies
Chinniah Thiagarajan, Frans Adriaansen: Multi-wall structural components having enhanced radiatransmission capability. Sabic Innovative Plastics IP, Cantor Colburn, November 26, 2013: US08590271

Disclosed herein is a hollow multi-wall structural component comprising a plurality of spaced-apart sheets that transmit an incident radiation, and connected with reinforcing members; wherein at least a portion of one surface of at least one of the sheets comprises a plurality of radiation transmiss ...


9
Sandeep Tyagi Sandeep Tyagi
Amit Biswas, Dibakar Dhara, Raja Krishnamurthy, Edward Kung, Parnasree Maiti, Roopali Rai, Vaidyanath Ramakrishnan, Vitthal Abaso Sawant, Rajashekhar Shiddappa Totad, Sandeep Tyagi: Polycarbonate composition comprising nanomaterials. Sabic Global Technologies, Cantor Colburn, October 21, 2014: US08865833

A method of preparing a polycarbonate nanocomposite comprising forming a reactant mixture comprising a nanomaterial, a solvent, a dihydroxy compound and an activated carbonate; and polymerizing the dihydroxy compound and the activated carbonate in the presence of the solvent to form the polycarbonat ...


10
Guoxiao Guo Guoxiao Guo
Michael Chang, Wei Guo, Russ A Quisenberry, Guoxiao Guo: Disk drive detecting mini wedge by evaluating wedge ID of servo sector. Western Digital Technologies, October 6, 2015: US09153263

A disk drive is disclosed comprising a head actuated over a disk comprising a plurality of tracks defined by servo sectors forming a plurality of full wedges and a plurality of mini wedges. The wedge ID field of a servo sector forming one of the full wedges is offset from a beginning of a sync mark ...