This book is a part of Books Series on Integrated Microanalytical Systems. It discusses the latest applications of photonic technologies in bio-chemical sensing. Based on the photonic structures, the book is divided into four sections: Photonic crystal structures; Optical microring resonator structures; Optical fiber/waveguide structures; and, Miscellaneous or hybrid structures.
This book is a part of Books Series on Integrated Microanalytical Systems. It discusses the latest applications of photonic technologies in bio-chemical sensing. Based on the photonic structures, the book is divided into four sections: Photonic crystal structures; Optical microring resonator structures; Optical fiber/waveguide structures; and, Miscellaneous or hybrid structures.
General Introduction.- Section I: Photonic structures for chemical vapor sensing.- Micro-resonator Sensors Made in Polymers with Functional Chromophore Dopants.- Modal Transition in Nano-Coated Long Period Fiber Gratings: Principle and Applications to Chemical Sensing.- New Approach for Selective Vapor Sensing Using Structurally Colored Self-Assembled Films.- Methods of Cavity-Enhanced Laser Absorption Spectroscopy Using Microresonator Whispering-Gallery Modes.- Rapid chemical vapor detection using optofluidic ring resonators.- Miniaturized Optical Fiber Inline Interferometers for Chemical Sensing.- Section II. Photonic structures for biochemical sensing.- Label-free Bio-Chemical Sensors Based on Optical Micro-Resonators.- Silicon Photonic Wire Waveguide Sensors.- A Fast and Sensitive Integrated Young Interferometer Biosensor.- The BioCD: High-Speed Interferometric Optical Biosensor.- Ultra-Sensitive biochemical optical detection using distributed feedback nano-lasers.- Optical micro/nanofibers for sensing applications.- Label-Free Biosensing with the Optofluidic Ring Resonator.- Deep-Probe Optical Waveguides for Chemical and Biosensors.- Section III. Microfluidics enabled photonic sensing systems.- Optically Resonant Nanophotonic Devices for Label-Free Biomolecular Detection.- Droplet based cavities and lasers.- Single molecule analysis with planar optofluidics.- Optofluidic ring resonator dye microlasers
General Introduction.- General Introduction.- Photonic Structures for Chemical Vapor Sensing.- Microresonator Sensors Made in Polymers with Functional Chromophore Dopants.- Modal Transition in Nano-Coated Long Period Fiber Gratings: Principle and Applications to Chemical Sensing.- New Approach for Selective Vapor Sensing Using Structurally Colored Self-Assembled Films.- Methods of Cavity-Enhanced Laser Absorption Spectroscopy Using Microresonator Whispering-Gallery Modes.- Rapid Chemical Vapor Detection Using Optofluidic Ring Resonators.- Miniaturized Optical Fiber Inline Interferometers for Chemical Sensing.- Photonic Structures for Biochemical Sensing.- Label-Free Biochemical Sensors Based on Optical Microresonators.- Silicon Photonic Wire Waveguide Sensors.- A Fast and Sensitive Integrated Young Interferometer Biosensor.- The BioCD: High-Speed Interferometric Optical Biosensor.- Ultra-Sensitive Biochemical Optical Detection Using Distributed Feedback Nanolasers.- Optical Micro/Nanofibers for Sensing Applications.- Label-Free Biosensing with the Optofluidic Ring Resonator.- Deep-Probe Optical Waveguides for Chemical and Biosensors.- Microfluidics Enabled Photonic Sensing Systems.- Optically Resonant Nanophotonic Devices for Label-Free Biomolecular Detection.- Droplet Based Cavities and Lasers.- Single Molecule Analysis with Planar Optofluidics.- Optofluidic Ring Resonator Dye Microlasers.- Erratum To.
General Introduction.- Section I: Photonic structures for chemical vapor sensing.- Micro-resonator Sensors Made in Polymers with Functional Chromophore Dopants.- Modal Transition in Nano-Coated Long Period Fiber Gratings: Principle and Applications to Chemical Sensing.- New Approach for Selective Vapor Sensing Using Structurally Colored Self-Assembled Films.- Methods of Cavity-Enhanced Laser Absorption Spectroscopy Using Microresonator Whispering-Gallery Modes.- Rapid chemical vapor detection using optofluidic ring resonators.- Miniaturized Optical Fiber Inline Interferometers for Chemical Sensing.- Section II. Photonic structures for biochemical sensing.- Label-free Bio-Chemical Sensors Based on Optical Micro-Resonators.- Silicon Photonic Wire Waveguide Sensors.- A Fast and Sensitive Integrated Young Interferometer Biosensor.- The BioCD: High-Speed Interferometric Optical Biosensor.- Ultra-Sensitive biochemical optical detection using distributed feedback nano-lasers.- Optical micro/nanofibers for sensing applications.- Label-Free Biosensing with the Optofluidic Ring Resonator.- Deep-Probe Optical Waveguides for Chemical and Biosensors.- Section III. Microfluidics enabled photonic sensing systems.- Optically Resonant Nanophotonic Devices for Label-Free Biomolecular Detection.- Droplet based cavities and lasers.- Single molecule analysis with planar optofluidics.- Optofluidic ring resonator dye microlasers
General Introduction.- General Introduction.- Photonic Structures for Chemical Vapor Sensing.- Microresonator Sensors Made in Polymers with Functional Chromophore Dopants.- Modal Transition in Nano-Coated Long Period Fiber Gratings: Principle and Applications to Chemical Sensing.- New Approach for Selective Vapor Sensing Using Structurally Colored Self-Assembled Films.- Methods of Cavity-Enhanced Laser Absorption Spectroscopy Using Microresonator Whispering-Gallery Modes.- Rapid Chemical Vapor Detection Using Optofluidic Ring Resonators.- Miniaturized Optical Fiber Inline Interferometers for Chemical Sensing.- Photonic Structures for Biochemical Sensing.- Label-Free Biochemical Sensors Based on Optical Microresonators.- Silicon Photonic Wire Waveguide Sensors.- A Fast and Sensitive Integrated Young Interferometer Biosensor.- The BioCD: High-Speed Interferometric Optical Biosensor.- Ultra-Sensitive Biochemical Optical Detection Using Distributed Feedback Nanolasers.- Optical Micro/Nanofibers for Sensing Applications.- Label-Free Biosensing with the Optofluidic Ring Resonator.- Deep-Probe Optical Waveguides for Chemical and Biosensors.- Microfluidics Enabled Photonic Sensing Systems.- Optically Resonant Nanophotonic Devices for Label-Free Biomolecular Detection.- Droplet Based Cavities and Lasers.- Single Molecule Analysis with Planar Optofluidics.- Optofluidic Ring Resonator Dye Microlasers.- Erratum To.
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