Ebook: Optical Sensors: Industrial Environmental and Diagnostic Applications
- Tags: Analytical Chemistry, Laboratory Medicine, Industrial Chemistry/Chemical Engineering, Medical Biochemistry, Optics Optoelectronics Plasmonics and Optical Devices, Biomedical Engineering
- Series: Springer Series on Chemical Sensors and Biosensors 1
- Year: 2004
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
Optical sensor technology has reached a level of technological maturity that makes it a promising candidate for applications to specific sensing challenges including those in environmental monitoring, in process control (particularly in biotechnology), in clinical assays were low-cost one-way sensing elements are needed, and in other areas. Optical sensors can be used as fiber optic microsensors, as planar coatings in bioreactors, in microtiterplate format, in disposable single-shot devices, and as planar membranes that can be imaged using sensitive cameras. The spectral range extends from the UV to the infrared, and from absorption to emission to surface plasmon resonance. Hence, a variety of schemes are conceivable, and this volume gives a state of the art description of the state of the art.
Optical sensor technology has reached a level of technological maturity that makes it a promising candidate for applications to specific sensing challenges including those in environmental monitoring, in process control (particularly in biotechnology), in clinical assays were low-cost one-way sensing elements are needed, and in other areas. Optical sensors can be used as fiber optic microsensors, as planar coatings in bioreactors, in microtiterplate format, in disposable single-shot devices, and as planar membranes that can be imaged using sensitive cameras. The spectral range extends from the UV to the infrared, and from absorption to emission to surface plasmon resonance. Hence, a variety of schemes are conceivable, and this volume gives a state of the art description of the state of the art.
Optical sensor technology has reached a level of technological maturity that makes it a promising candidate for applications to specific sensing challenges including those in environmental monitoring, in process control (particularly in biotechnology), in clinical assays were low-cost one-way sensing elements are needed, and in other areas. Optical sensors can be used as fiber optic microsensors, as planar coatings in bioreactors, in microtiterplate format, in disposable single-shot devices, and as planar membranes that can be imaged using sensitive cameras. The spectral range extends from the UV to the infrared, and from absorption to emission to surface plasmon resonance. Hence, a variety of schemes are conceivable, and this volume gives a state of the art description of the state of the art.
Content:
Front Matter....Pages I-XX
Optical Technology until the Year 2000: An Historical Overview....Pages 1-34
Molecularly Imprinted Polymers for Optical Sensing Devices....Pages 35-50
Chromogenic and Fluorogenic Reactands: New Indicator Dyes for Monitoring Amines, Alcohols and Aldehydes....Pages 51-66
Design, Quality Control and Normalization of Biosensor Chips....Pages 67-92
Rapid, Multiplex Optical Biodetection for Point-of-Care Applications....Pages 93-119
Multi-functional Biochip for Medical Diagnostics and Pathogen Detection....Pages 121-143
Surface Plasmon Resonance Biosensors for Food Safety....Pages 145-172
NIR Dyes for Ammonia and HCI Sensors....Pages 173-201
Piezo-Optical Dosimeters for Occupational and Environmental Monitoring....Pages 203-226
Interferometric Biosensors for Environmental Pollution Detection....Pages 227-250
Fibre Optic Sensors for Humidity Monitoring....Pages 251-280
Optical Sensing of pH in Low Ionic Strength Waters....Pages 281-308
Environmental and Industrial Optosensing with Tailored Luminescent Ru(II) Polypyridyl Complexes....Pages 309-357
TIRF Array Biosensor for Environmental Monitoring....Pages 359-390
Optical Techniques for Determination and Sensing of Hydrogen Peroxide in Industrial and Environmental Samples....Pages 391-408
Back Matter....Pages 409-423
Optical sensor technology has reached a level of technological maturity that makes it a promising candidate for applications to specific sensing challenges including those in environmental monitoring, in process control (particularly in biotechnology), in clinical assays were low-cost one-way sensing elements are needed, and in other areas. Optical sensors can be used as fiber optic microsensors, as planar coatings in bioreactors, in microtiterplate format, in disposable single-shot devices, and as planar membranes that can be imaged using sensitive cameras. The spectral range extends from the UV to the infrared, and from absorption to emission to surface plasmon resonance. Hence, a variety of schemes are conceivable, and this volume gives a state of the art description of the state of the art.
Content:
Front Matter....Pages I-XX
Optical Technology until the Year 2000: An Historical Overview....Pages 1-34
Molecularly Imprinted Polymers for Optical Sensing Devices....Pages 35-50
Chromogenic and Fluorogenic Reactands: New Indicator Dyes for Monitoring Amines, Alcohols and Aldehydes....Pages 51-66
Design, Quality Control and Normalization of Biosensor Chips....Pages 67-92
Rapid, Multiplex Optical Biodetection for Point-of-Care Applications....Pages 93-119
Multi-functional Biochip for Medical Diagnostics and Pathogen Detection....Pages 121-143
Surface Plasmon Resonance Biosensors for Food Safety....Pages 145-172
NIR Dyes for Ammonia and HCI Sensors....Pages 173-201
Piezo-Optical Dosimeters for Occupational and Environmental Monitoring....Pages 203-226
Interferometric Biosensors for Environmental Pollution Detection....Pages 227-250
Fibre Optic Sensors for Humidity Monitoring....Pages 251-280
Optical Sensing of pH in Low Ionic Strength Waters....Pages 281-308
Environmental and Industrial Optosensing with Tailored Luminescent Ru(II) Polypyridyl Complexes....Pages 309-357
TIRF Array Biosensor for Environmental Monitoring....Pages 359-390
Optical Techniques for Determination and Sensing of Hydrogen Peroxide in Industrial and Environmental Samples....Pages 391-408
Back Matter....Pages 409-423
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