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Title Advanced photonic structures for biological and chemical detection / Xudong Fan, editor
Published Dordrecht : Springer, [2009]
Online access available from:
Springer eBooks    View Resource Record  


Description 1 online resource (xx, 540 pages) : illustrations
Series Integrated analytical systems
Integrated analytical systems.
Contents 157565_1_En_FM1_OnlinePDF.pdf; Series Preface; Integrated Analytical Systems; Foreword; Preface; Contents1General Introduction1Xudong Fanfanxud@missouri.eduSection I Photonic Structures for Chemical Vapor Sensing2Microre; 157565_1_En_1_Chapter_OnlinePDF.pdf; Chapter 1: General Introduction; 157565_1_En_1_Section_OnlinePDF.pdf; Section I: Photonic Structures for Chemical Vapor Sensing; 157565_1_En_2_Chapter_OnlinePDF.pdf; Chapter 2: Microresonator Sensors Made in Polymers with Functional Chromophore Dopants; Introduction; Microring Resonator Theory and a Design Method
Basic Theory of Microring ResonatorsSensitivity of Microring Resonator Sensors; A Simplified Approach to Designing Microring Resonators; Waveguide Fabrication Techniques Unique to Chromophore-Doped Polymers; Photobleaching; Electron-Beam Bleaching; Change of Linear Optical Properties Caused by Nitroaromatic Explosives; Poling and Electro-Optical Polymer; Microresonator Trace Explosive Sensor; All-Dielectric Radio Frequency Electric Field Sensor; Conclusion; References; 157565_1_En_3_Chapter_OnlinePDF.pdf; Introduction; Theoretical Background; Numerical Analysis of Coated LPGs
Nano-Coated LPGs FabricationSyndiotactic Polystyrene; Dip-Coating; Thin Film Deposition onto LPGs; Experimental Results; Mode Transition: Effects on the SRI Sensitivity; Sensitivity Characteristics of Nano-Coated LPGs; Coated LPGs as Highly Sensitive Optochemical Sensors; Far from the Transition Region; Within the Transition Region; Applications of (Nano)-Coated LPGs; 157565_1_En_4_Chapter_OnlinePDF.pdf; Chapter 4: New Approach for Selective Vapor Sensing Using Structurally Colored Self-Assembled Films; Introduction; Detection Concept
Fabrication of Core-Shell Colloidal Crystal Films for Selective Chemical SensingSpectral Response to Vapors; Dynamic Response to Vapors; Quantitation of Vapor Concentrations; Conclusions; 157565_1_En_5_Chapter_OnlinePDF.pdf; Chapter 5: Methods of Cavity-Enhanced Laser Absorption Spectroscopy Using Microresonator Whispering-Gallery Modes; Introduction; Theoretical Analysis of Microcavity-Enhanced Absorption Sensors; Tunable Single-Frequency Operation; Broadband Operation; Microcavity-Enhanced Detection of Atmospheric Trace Gases; Experimental Setup; Results; Summary
Extensions of Method and Further EnhancementsSensing in Liquids: Laser and Broadband; Prospective Methods for Sensing Enhancement; Gold-Nanorod-Enhanced Sensing; Summary; Surface and Thin-Film Characterization; Experiments; Accommodation Coefficients; Thermal Bistability; Summary; Conclusions; 157565_1_En_6_Chapter_OnlinePDF.pdf; Chapter 6: Rapid Chemical Vapor Detection Using Optofluidic Ring Resonators; Introduction; Theoretical Model of the OFRR Vapor Sensor; Theoretical Analysis of the OFRR Chemical Vapor Sensor; Low RI Polymer Coating; High RI Polymer Coating
Summary 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
Bibliography Includes bibliographical references and index
Notes Print version record
Subject Photonics.
Optical interferometers.
Optical wave guides.
Form Electronic book
Author Fan, Xudong.
LC no. 2009928624
ISBN 0387980636