Patents by Inventor James Shelnut
James Shelnut has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20070202435Abstract: Provided are photosensitive compositions which are suitable for use in forming optical waveguides. The compositions include a polymer having units of the formula (RSiO1.5), wherein R is a substituted or unsubstituted organic group, and a photoactive component for altering the solubility of the polymer upon exposure to actinic radiation. The photoactive component is non-ionic and has an associated wavelength of maximum absorption of greater than 300 nm. Also provided are methods of forming optical waveguides as well as optical waveguides. The compositions, methods and optical waveguides have particular use in the formation of printed wiring boards having electrical and optical functionality.Type: ApplicationFiled: December 28, 2006Publication date: August 30, 2007Applicant: Rohm and Haas Electronic Materials LLCInventors: James Shelnut, Nicola Pugliano
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Publication number: 20070107629Abstract: Provided are polymers comprising the condensation product of silicon-containing reactants. Also provided are compositions suitable for use in forming optical waveguides which include such polymers, as well as optical waveguides formed from such polymers. The polymers, compositions and optical waveguides have particular use in the formation of printed wiring boards having electrical and optical functionality.Type: ApplicationFiled: November 14, 2006Publication date: May 17, 2007Applicant: Rohm and Haas Electronic Materials LLCInventors: Hai Zheng, Philip Knudsen, James Shelnut
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Publication number: 20070003865Abstract: An imaging method is disclosed. An imaging composition is coated on a work piece followed by applying a sufficient amount of energy from a 3-D imaging system to form an image on the coated work piece. The image may be a logo or marker for alignment of parts.Type: ApplicationFiled: March 17, 2006Publication date: January 4, 2007Applicant: Rohm and Haas Electronic Materials LLCInventors: Robert Barr, James Fahey, Corey O'Connor, James Shelnut
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Publication number: 20060223009Abstract: An imaging method is disclosed. An imaging composition is coated on a work piece followed by applying a sufficient amount of energy from a 3-D imaging system to form an image on the coated work piece. The image may be a logo or marker for alignment of parts.Type: ApplicationFiled: March 17, 2006Publication date: October 5, 2006Applicant: Rohm and Haas Electronic Materials LLCInventors: Robert Barr, James Fahey, Corey O'Connor, James Shelnut
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Publication number: 20060160024Abstract: An imaging method is disclosed. An imaging composition is coated on a work piece followed by applying a sufficient amount of energy from a 3-D imaging system to form an image on the coated work piece. The image may be a logo or marker for alignment of parts.Type: ApplicationFiled: March 17, 2006Publication date: July 20, 2006Applicant: Rohm and Haas Electronic Materials LLCInventors: Robert Barr, James Fahey, Corey O'Connor, James Shelnut
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Publication number: 20060133766Abstract: 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 non-photoimageable, thermally curable polymeric layer is provided over the front surface of the carrier substrate. The polymeric layer includes a thermally active component and units of the formula (RSiO1.5), wherein R is a substituted or unsubstituted organic group. A protective cover layer is disposed over the front or back surface of the carrier substrate. Also provided are methods of forming optical devices with dry-films. The invention finds particular applicability in the optoelectronics industry.Type: ApplicationFiled: December 22, 2005Publication date: June 22, 2006Applicant: Rohm and Haas Electronic Materials LLCInventors: James Shelnut, Matthew Moynihan, Luke Little
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Publication number: 20060133756Abstract: Provided are methods of forming an optical device. The methods involve: (a) applying over a first substrate a dry-film including: a carrier substrate and a first polymeric layer over the carrier substrate; (b) forming a second polymeric layer over the first substrate by a method that includes coating over the first substrate a liquid composition; and (c) patterning the first polymeric layer and/or the second polymeric layer. Also provided are methods of forming printed wiring boards having optical functionality. The invention finds particular applicability in the optoelectronics industry.Type: ApplicationFiled: December 22, 2005Publication date: June 22, 2006Applicant: Rohm and Haas Electronic Materials LLCInventors: James Shelnut, Matthew Moynihan, Luke Little
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Publication number: 20060133755Abstract: 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 component and units of the formula (RSiO1.5), wherein R is a substituted or unsubstituted organic group. In each of the units, R is free of hydroxy groups. The units include units of the formula (R1SiO1.5) and (R2SiO1.5), wherein R1 is a substituted or unsubstituted aliphatic group and R2 is a substituted or unsubstituted aromatic group. A protective cover layer is disposed over the front surface or back surface of the carrier substrate. Also provided are methods of forming optical devices with dry-films. The invention finds particular applicability in the optoelectronics industry.Type: ApplicationFiled: December 22, 2005Publication date: June 22, 2006Applicant: Rohm and Haas Electronic Materials LLCInventors: James Shelnut, Matthew Moynihan, Luke Little
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Publication number: 20060098933Abstract: 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 unsubstituted organic group, and a photoactive component. A portion of the clad layer is photolithographically patterned. Also provided is a method of forming a printed wiring board having optical functionality. The invention has particular applicability in the electronics industry for forming optoelectronic devices.Type: ApplicationFiled: August 3, 2005Publication date: May 11, 2006Applicant: Rohm and Haas Electronic Materials LLCInventors: James Shelnut, Nicola Pugliano, Matthew Moynihan, Bruno Sicard
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Publication number: 20060098926Abstract: Provided are methods of forming a printed circuit board having optical functionality. The methods involve: (a) providing a first, printed circuit board substrate; (b) forming an optical waveguide structure comprising a clad and a core structure on a second substrate separate from the printed circuit board substrate, wherein the optical waveguide structure comprises a silicon-containing material; (c) separating the optical waveguide structure from the second substrate; and (d) affixing the optical waveguide structure to the printed circuit board substrate. The invention has particular applicability in the electronics and optoelectronics industries for the formation of hybrid printed circuit boards.Type: ApplicationFiled: August 19, 2005Publication date: May 11, 2006Applicant: Rohm and Haas Electronic Materials LLCInventors: James Shelnut, Matthew Moynihan, Nicola Pugliano, Philip Knudsen
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Publication number: 20060073409Abstract: An imaging composition, article and method of imaging are disclosed. The imaging composition is energy sensitive such that upon application of a sufficient amount of energy to the composition a color or shade change is affected. The imaging composition is coated on an article to form an energy sensitive article, which may be used in marking work pieces.Type: ApplicationFiled: July 13, 2005Publication date: April 6, 2006Applicant: Rohm and Haas Electronic Materials LLCInventors: Robert Barr, James Fahey, Corey O'Connor, James Shelnut
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Publication number: 20050244124Abstract: 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. A second component contains a plurality of functional groups chosen from epoxides, oxetanes, vinyl ethers and combinations thereof. The second component is present in an effective amount to improve flexibility of the composition in a dried state before and after activation. Also provided are flexible optical waveguides, methods of forming flexible optical waveguides and electronic devices that include a flexible optical waveguide.Type: ApplicationFiled: April 14, 2005Publication date: November 3, 2005Applicant: Rohm and Haas Electronic Materials LLCInventors: James Shelnut, Nicola Pugliano, Matthew Moynihan, Hai Zheng, Daniel Lundy, Nathan Pawlowski
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Publication number: 20050180712Abstract: 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 groups and are free of hydroxy groups, and two or more functional end groups, and a photoactive component. The solubility of the silsesquioxane polymer is altered upon exposure to actinic radiation such that the composition is developable in an aqueous developer solution. Also provided are methods of forming an optical waveguide with the inventive compositions, optical waveguides, and electronic devices including one or more optical waveguide.Type: ApplicationFiled: January 10, 2005Publication date: August 18, 2005Applicant: Shipley Company, L.L.C.Inventors: James Shelnut, Matthew Moynihan, Omari Patterson
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Publication number: 20050175941Abstract: An imaging composition, article and method of imaging are disclosed. The imaging composition is energy sensitive such that upon application of a sufficient amount of energy to the composition a color or shade change is affected. The imaging composition is coated on an article to form an energy sensitive article, which may be used in marking work pieces.Type: ApplicationFiled: February 6, 2004Publication date: August 11, 2005Applicant: Rohm and Hass Electronic Materials, L.L.C.Inventors: Robert Barr, James Fahey, Corey O'Connor, James Shelnut
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Publication number: 20050175229Abstract: An imaging method is disclosed. An imaging composition is coated on a work piece followed by applying a sufficient amount of energy from a 3-D imaging system to form an image on the coated work piece. The image may be a logo or marker for alignment of parts.Type: ApplicationFiled: February 6, 2004Publication date: August 11, 2005Applicant: Rohm and Haas Electronic Materials, L.L.C.Inventors: Robert Barr, James Fahey, Corey O'Connor, James Shelnut
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Publication number: 20050175929Abstract: Imaging compositions and methods of using the compositions are disclosed. The imaging compositions are sensitive to low levels of energy such that upon application of the low levels of energy the compositions change color or shade. The compositions may be used in methods of marking.Type: ApplicationFiled: February 6, 2004Publication date: August 11, 2005Applicant: Rohm and Hass Electronic Materials, L.L.C.Inventors: Robert Barr, James Fahey, Corey O'Connor, James Shelnut, John Piskorski
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Publication number: 20050170077Abstract: A primer composed of a polymer solution is applied to a roughened metal surface, and a polymer material such as a pre-preg is applied to the treated metal surface to form a bond between the metal and the polymer material.Type: ApplicationFiled: March 25, 2005Publication date: August 4, 2005Applicant: Shipley Company, L.L.C.Inventors: Joseph Montano, James Shelnut
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Publication number: 20050163415Abstract: 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; and (b) removing selected portions of the polymeric layer by laser ablation. The invention has particular applicability in the electronics and optoelectronics industries.Type: ApplicationFiled: December 22, 2004Publication date: July 28, 2005Inventors: Matthew Moynihan, Carl Colangelo, James Shelnut, Bruno Sicard, Nicola Pugliano
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Publication number: 20050141839Abstract: 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 altering the solubility of the composition in a dried state upon activation. A second component contains a plurality of functional groups chosen from hydroxy, amino, thiol, sulphonate ester, carboxylate ester, silyl ester, anhydride, aziridine, methylolmethyl, silyl ether, and combinations thereof. The second component is present in an effective amount to improve flexibility of the composition in a dried state before and after activation. Also provided are flexible optical waveguides, methods of forming flexible optical waveguides and electronic devices that include a flexible optical waveguide.Type: ApplicationFiled: November 19, 2004Publication date: June 30, 2005Applicant: Rohm and Haas Electronic Materials, L.L.C.Inventors: James Shelnut, Nicola Pugliano, Matthew Moynihan, Hai Zheng, Daniel Lundy, Nathan Pawlowski
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Publication number: 20050111808Abstract: 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) units are present in an amount of 14 wt % or more based on the polymer; and a plurality of functional end and/or internal groups. Also included is a component for altering the solubility of the composition upon activation. The solubility of the composition in a dried state is alterable upon activation of the component such that the composition is developable in an aqueous developer solution. Also provided are flexible optical waveguides, methods of forming flexible optical waveguides and electronic devices that include a flexible optical waveguide.Type: ApplicationFiled: November 19, 2004Publication date: May 26, 2005Applicant: Rohm and Haas Electronic Materials, L.L.C.Inventors: James Shelnut, Matthew Moynihan