1
David Sherrer
Matthew L Moynihan, Bruno M Sicard, Carl J Colangelo, John P Cahalen, Brian D Amos, Kevin S Horgan, John J Fisher, David W Sherrer: Optical interface assembly and method of formation. Rohm and Haas Electronics Materials, Jonathan D Baskin, November 6, 2007: US07292756 (12 worldwide citation)

Optical interface assemblies are provided. The optical interface assemblies include a first portion having a plurality of optical waveguides. The first portion is configured for mating engagement with an optical fiber connector. A second portion is mated to the first portion. The second portion is c ...


2
David Sherrer
Matthew L Moynihan, Bruno M Sicard, Carl J Colangelo, John P Cahalen, Brian D Amos, Kevin S Horgan, John J Fisher, David W Sherrer: Optical interface assembly and method of formation. Edwards & Angell, July 28, 2005: US20050163431-A1

Optical interface assemblies are provided. The optical interface assemblies include a first portion having a plurality of optical waveguides. The first portion is configured for mating engagement with an optical fiber connector. A second portion is mated to the first portion. The second portion is c ...


3
Matthew L Moynihan, Carl J Colangelo, James G Shelnut, Bruno M Sicard, Nicola Pugliano: Methods of forming electronic and optical components using laser ablation. Edwards & Angell, July 28, 2005: US20050163415-A1

Provided are methods of forming an electronic and/or optical component. The methods involve: (a) providing an electronic substrate having a polymeric layer, wherein the polymeric layer includes a polymer with units of the formula (R1SiO1.5), wherein R1 is a substituted or unsubstituted organic group ...


4
James G Shelnut, Nicola Pugliano, Matthew L Moynihan, Bruno M Sicard: Methods of forming devices having optical functionality. Rohm and Haas Electronic Materials, Jonathan D Baskin, Rohm and Haas Electronic Materials, May 11, 2006: US20060098933-A1

Provided is a method of forming a device having optical functionality. The method includes forming an optical waveguide over a substrate by providing a clad layer and a core over the substrate. The clad layer includes a polymer having units of the formula (RSiO1.5), wherein R is a substituted or uns ...



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