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Optical Biosensors, Second Edition describes the principles of successful systems, examples of applications, and evaluates the advantages and deficiencies of each. It also addresses future developments on two levels: possible improvements in existing systems and emerging technologies that could provide new capabilities in the future. The book is formatted for ease of use and is therefore suitable for scientists and engineers, students and researcher at all levels in the field. Comprehensive analysis and review of the underlying principles by optical biosensors Updates and informs on all the latest developments and hot topic areas Evaluates current methods showing the advantages and disadvantages of various systems involved
PART I. Optical Biosensors: The Present -- Chapter 1. Optrode-based Fiber Optic Biosensors -- Israel Biran and David R. Walt -- Chapter 2. Evanescent Wave Fiber Optic Biosensors -- Chris Rowe Taitt and Frances S. Ligler -- Chapter 3. Planar Waveguides for Fluorescence Biosensors -- Kim Sapsford, Chris Rowe Taitt, and Frances S. Ligler -- Chapter 4. Flow Immnosensor -- Anne W. Kusterbeck -- Chapter 5. Time Resolved Fluorescence -- Richard Thompson -- Chapter 6. Electrochemiluminescence -- Mark M. Richter -- Chapter 7. Surface Plasmon Resonance Biosensors -- Jiri Homola, Sinclair Yee, and David Myszka -- Chapter 8. The Resonant Mirror Optical Biosensor -- Tim Kinning and Paul Edwards -- Chapter 9. Interferometric Biosensors -- Daniel P. Campbell and Candice J. McCloskey -- Part II. Optical Biosensors: The Future -- Chapter 10. Genetic Engineering of Signaling Molecules -- Agatha Feltus and Sylvia Daunert -- Chapter 11. Artificial Receptors for Chemosensors -- Thomas W. Bell and Nicholas ...
Optical Biosensors: Present & Future
For the first time, distinguished scientists from key institutions worldwide provide a comprehensive approach to optical sensing techniques employing the phenomenon of guided wave propagation for chemical and biosensors. This includes both state-of the-art fundamentals and innovative applications of these techniques. The authors present a deep analysis of their particular subjects in a way to address the needs of novice researchers such as graduate students and post-doctoral scholars as well as of established researchers seeking new avenues. Researchers and practitioners who need a solid foundation or reference will find this work invaluable. This second of two volumes covers the incorporation of periodic structures in waveguides to exploit the Bragg phenomenon, optical fiber sensors, hollow waveguides and micro-resonators as well as a review of the tremendous expansion of terahertz technology for sensing applications.
Optical Biosensors, 2ed describes the principles of successful systems, examples of applications, and evaluates the advantages and deficiencies of each. It also addresses future developments on two levels: possible improvements in existing systems and emerging technologies that could provide new capabilities in the future. The book is formatted for ease of use and is therefore suitable for scientists and engineers, students and researcher at all levels in the field. * Comprehensive analysis and review of the underlying principles by optical biosensors * Updates and informs on all the latest developments and hot topic areas * Evaluates current methods showing the advantages and disadvantages of various systems involved
There is a worldwide effort towards the development of bioanalytical devices that can be used for detection, quantification and monitoring of specific chemical species. In this context, biosensors represent an emerging trend in the diagnostics industry. A biosensor is a device that has a biological sensing element either intimately connected to or integrated within a transducer. The aim is to produce a digital electronic signal that is proportional to the concentration of a specific chemical or a set of chemicals. Biosensors are specific, rapid, cost-effective and easy to use devices that can be employed with minimal sample treatment. Biosensors have applications in many areas such as biotechnology, healthcare, pollution monitoring, food and agriculture product monitoring, the pharmaceuticals industry and defense. This reference text is devoted to the principles and applications of biosensors and meets the needs of academic institutes, research laboratories and the rapidly developing biosensor industry. Discusses novel ways that can be used to fabricate biosensors for a variety of applications Biosensors have applications in many scientific areas Contributors are experts in their respective fields of research
This book provides wide-ranging coverage of current developments in biomedical sensing based on photonic techniques. Biomedical sensing is a dynamic topic that promises to deliver much in the future evolution of medical diagnostics, delivering advanced tools for fundamental research in biology at the micrometre and nanometre scales. The book explores a variety of alternative physical and biological methodologies that have become available for application, such as plasmonic sensors and photonic crystal biosensors. At the same time, it addresses issues that potentially limit the capability of biomedical optical sensing techniques, while reviewing the state-of-the-art in biomedical optical sensing for the future work that will lead to near-universal applications of such techniques. Edited and written by leading experts in this domain, this book is ideal as a comprehensive manual for researchers and graduate students.
This book discusses the history, physics, fundamental principles, sensing technologies, and characterization of plasmonic phenomenon-based fiber-optic biosensors, using optic-plasmonic sensors as a case study. It describes the plasmonic phenomenon and its application in optical fiber-based sensing, presented based on properties and usage of different nanomaterials spread across nine chapters. Content covers advances in nanomaterials, structural designing, and their scope in biomedical applications. Future developments of biosensing devices and related articulate methods are also described. Features: Gives a comprehensive view on the nanomaterials used in plasmonic optical fiber biosensors Includes synthesis, characterization, and usage for detection of different analytes Discusses trends in the design of wavelength-based optical fiber sensors Reviews micro- and nanostructured biosensing devices Explores application of plasmonic sensors in the biosensing field This book is aimed at researchers and graduate students in Optical Communications, Biomedical Engineering, Optics, Sensors, Instrumentation, and Measurement.