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

4
James G Shelnut, Matthew L Moynihan, Omari Patterson: Methods of forming waveguides and waveguides formed therefrom. Shipley Company, Jonathan D Baskin, April 4, 2006: US07024093 (15 worldwide citation)

Provided are methods of forming optical waveguides. The methods involve: (a) forming over a substrate a layer of a photodefinable composition; (b) exposing a portion of the layer to actinic radiation; (c) developing the exposed layer to form a waveguide core structure; and (d) heating the waveguide ...


5
James G Shelnut, Nicola Pugliano, Matthew L Moynihan, Hai Bin Zheng, Daniel E Lundy, Nathan Pawlowski: Waveguide compositions and waveguides formed therefrom. Rohm and Haas Electronic Materials, Jonathan D Baskin, July 4, 2006: US07072565 (9 worldwide citation)

Provided are compositions which include a polymer, having units of the formula (RSiO1.5), wherein R is a substituted or unsubstituted organic group, and a plurality of functional end groups. A first component is provided for altering the solubility of the composition in a dried state upon activation ...


6
James G Shelnut, Nicola Pugliano, Matthew L Moynihan, Hai Bin Zheng, Daniel E Lundy, Nathan Pawlowski: Waveguide compositions and waveguides formed therefrom. Rohm and Haas Electronic Materials, Jonathan D Baskin, July 4, 2006: US07072563 (8 worldwide citation)

Provided are compositions suitable for use in forming a flexible optical waveguide. The compositions include a polymer, having units of the formula (RSiO1.5), wherein R is a substituted or unsubstituted organic group, and a plurality of functional end groups. A first component is provided for alteri ...


7
James G Shelnut, Matthew L Moynihan, Omari Patterson: Photoimageable waveguide composition and waveguide formed therefrom. Shipley Company L L C, Jonathan D Baskin, January 11, 2005: US06842577 (4 worldwide citation)

Provided are photodefinable compositions suitable for use in forming an optical waveguide. The compositions include a silsesquioxane polymer having polymerized units of the formula (R1SiO1.5) and (R2SiO1.5), wherein R1 and R2 are different and are substituted or unsubstituted organic side chain grou ...


8
James G Shelnut, Matthew L Moynihan: Waveguide compositions and waveguides formed therefrom. Rohm and Haas Electronic Materials, Jonathan D Baskin, July 4, 2006: US07072564 (3 worldwide citation)

Provided are compositions suitable for use in forming a flexible optical waveguide. The compositions include a polymer that has units of the formula (R1SiO1.5) and (R22SiO), wherein R1 and R2 are the same or different, and are substituted and/or unsubstituted organic groups, and wherein the (R22SiO) ...


9
James G Shelnut, Matthew L Moynihan, Luke W Little: Optical dry-films and methods of forming optical devices with dry films. Rohm and Haas Electronic Materials, Jonathan D Baskin, July 31, 2007: US07251404 (2 worldwide citation)

Provided is a dry-film suitable for use in forming an optical component. The dry-film includes a carrier substrate having a front surface and a back surface. A negative-working photoimageable polymeric layer is disposed over the front surface of the carrier substrate, and includes a photoactive comp ...


10
Robert K Barr, Raymond Chan, Matthew L Moynihan: Method of cleaning semiconductor wafers. Rohm and Haas Electronic Materials, John J Piskorski, June 11, 2013: US08460474 (1 worldwide citation)

A method of cleaning semiconductor wafers using an acid cleaner followed by an alkaline cleaner to clean contaminants from the materials is provided. The acid cleaner removes substantially all of the metal contaminants while the alkaline cleaner removes substantially all of the non-metal contaminant ...



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