Mingqian He - Painted Post NY Thomas M. Leslie - Horseheads NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
C07D30730
US Classification:
549474, 558303, 558336
Abstract:
The present invention is directed to dicyanomethylenedihydrofuran-based electron acceptors which can be used in the preparation of polymeric thin films for waveguide media, and methods of making the same.
Electron Acceptors For Polymeric Thin Film Waveguide Media
Mingqian He - Corning NY Thomas M. Leslie - Horseheads NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
C07D30730
US Classification:
549474, 549497, 558315
Abstract:
The present invention is directed to dicyanomethylenedihydrofuran-based electron acceptors which can be used in the preparation of polymeric thin films for waveguide media, and methods of making the same.
Keith A. Horn - Corning NY Thomas M. Leslie - Horseheads NY James V. Suggs - Corning NY Mingqian He - Corning NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
G02B 600
US Classification:
385143, 385145, 385123
Abstract:
A polyester having less than 50 hydrogen-carbon bonds per 1000 molecular weight units exhibits very low optical loss in the range of wavelengths commonly used for optical communication, and exhibits other physical properties suitable for use as a waveguide core material and/or a waveguide cladding material in optical fibers and/or planar optical devices.
Electro-Optic Chromophore Bridge Compounds And Donor-Bridge Compounds For Polymeric Thin Film Waveguides
The present invention is directed to electro-optico chromophore bridge compounds and donor-bridge compounds which can be used in the preparation of polymeric thin films for waveguide media.
Chromophores For Polymeric Thin Films And Optical Waveguides And Devices Comprising The Same
The present invention is directed to chromophores having novel electron withdrawing groups and novel bivalent cyclic bridges and to optical waveguides and optical devices having polymeric thin films which contain the novel chromophores.
Keith A. Horn - Corning NY Thomas M. Leslie - Horseheads NY James V. Suggs - Corning NY Mingqian He - Corning NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
C08G 6300
US Classification:
528191, 528176, 528194, 5283086, 528308, 528401
Abstract:
A polyester having less than 50 hydrogen-carbon bonds per 1000 molecular weight units exhibits very low optical loss in the range of wavelengths commonly used for optical communication, and exhibits other physical properties suitable for use as a waveguide core material and/or a waveguide cladding material in optical fibers and/or planar optical devices.
Treatment Of Substrates For Immobilizing Biomolecules
Yijia Bao - Painted Post NY Guangshan Li - Corning NY Nalini Raghavachari - Painted Post NY Mingqian He - Painted Post NY Xinying Xie - Painted Post NY Yuming Xie - Painted Post NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
C12Q 168
US Classification:
435 6, 536 231, 536 243
Abstract:
A method of treating a substrate for immobilizing a biomolecule and substrates produced by the method are disclosed. The method includes contacting at least a portion of a substrate with a reducing agent such as a hydride. Treatment with an appropriate reducing agent substantially eliminates autofluorescence on substrates.
Treatment Of Substrates For Immobilizing Biomolecules
Yijia Bao - Painted Post NY, US Guangshan Li - Corning NY, US Nalini Raghavachari - Painted Post NY, US Mingqian He - Painted Post NY, US Xinying Xie - Painted Post NY, US Yuming Xie - Painted Post NY, US
Assignee:
Corning Incorporated - Corning NY
International Classification:
C12Q 1/68 G01N 33/53
US Classification:
435 6, 435 71
Abstract:
A method of treating a substrate for immobilizing a biomolecule and substrates produced by the method are disclosed. The method includes contacting at least a portion of a substrate with a reducing agent such as a hydride. Treatment with an appropriate reducing agent substantially eliminates autofluorescence on substrates.