Erika Kress-Rogers
Handbook of Biosensors and Electronic Noses
Medicine, Food, and the Environment
Ed. by Erika Kress- Rogers
Erika Kress-Rogers
Handbook of Biosensors and Electronic Noses
Medicine, Food, and the Environment
Ed. by Erika Kress- Rogers
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- Produkterinnerung
In developing the electronic nose and biosensor devices, researchers not only copy biochemical pathways, but also use nature's approach to signal interpretation as a blueprint for man-made sensing systems. Commercial biosensors have demonstrated their benefits and practical applications, providing high sensitivity and selectivity, combined with a significant reduction in sample preparation assay time and the use of expensive reagents. The Handbook of Biosensors and Electronic Noses discusses design and optimization for the multitude of practical uses of these devices including:
In developing the electronic nose and biosensor devices, researchers not only copy biochemical pathways, but also use nature's approach to signal interpretation as a blueprint for man-made sensing systems. Commercial biosensors have demonstrated their benefits and practical applications, providing high sensitivity and selectivity, combined with a significant reduction in sample preparation assay time and the use of expensive reagents. The Handbook of Biosensors and Electronic Noses discusses design and optimization for the multitude of practical uses of these devices including:
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Artikelnr. des Verlages: 8905
- 1996.
- Seitenzahl: 720
- Englisch
- Abmessung: 254mm
- Gewicht: 1482g
- ISBN-13: 9780849389054
- ISBN-10: 0849389054
- Artikelnr.: 21229056
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
- Verlag: CRC Press
- Artikelnr. des Verlages: 8905
- 1996.
- Seitenzahl: 720
- Englisch
- Abmessung: 254mm
- Gewicht: 1482g
- ISBN-13: 9780849389054
- ISBN-10: 0849389054
- Artikelnr.: 21229056
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
Introduction to the Handbook Biosensors and Electronic Noses for Practical Applications, E. Kress-Rogers Receptors, Membranes, and Devices for Biosensors Enzymes, Cofactors, and Mediators, S.F. White and A.P.F. Turner Bioaffinity Agents for Sensing Systems, D.J. Newman, Y. Olabiran, and C.P. Price Probes for Nucleic Acids and Biosensors, R.W. Titball and D.J. Squirrell Membranes to Improve Amperometric Sensor Characteristics, S.M. Reddy and P.M. Vadgama Microelectronic Devices, A. Grisel Surface Plasmon Resonance (SPR) for Biosensing, C.R. Lawrence and N.J. Geddes Immunosensors Based on Total Internal Reflection, R.P.H. Kooyman and L.M. Lechuga Acoustic Devices, A. D'Amico, C. Di Natale, and E. Verona Metabolism and Bioaffinity Sensors for Medicine, Food, and the Environment Mediated Amperometric Biosensors, S.F. White and A.P.F. Turner Commercial Devices Based on Amperometric Biosensors, F.W. Scheller and D. Pfeiffer Microelectronic Biosensors for Clinical Applications, G. Urban Calorimetric Biosensors, S. Kröger and B. Danielsson Microbial and Enzyme Sensors for Environmental Monitoring, C. Wittmann, K. Riedel, and R.D. Schmid Bioaffinity Sensors for Environmental Monitoring, C. Wittmann and R.D. Schmid Monitoring Immunoreactions with SPR, N.J. Geddes and C.R. Lawrence Fluorimetric Immunosensors, M. Wortberg, M. Orban, R. Renneberg, and K. Cammann On-Line and In Vivo Monitoring and Control Optimized Biosensors in Clinical Applications, D. Moscone and M. Mascini Biosensors for Process Monitoring, U. Bilitewski and I. Rohm Fuzzy Logic in the Evaluation of Sensor Data, P.G. Berrie Towards the Electronic Nose Mammalian Semiochemistry: Chemical Signalling between Mammals, E. Albone Sense of Smell: Signal Recognition and Transduction in Olfactory Receptor Neurons, H. Breer Semiconductor and Calorimetric Devices and Arrays, D. Kohl Arrays of Broad Specificity Films for Sensing Volatile Chemicals, K.C. Persaud and P.J. Travers Sorbent Polymer Materials for Chemical Sensors and Arrays, J.W. Grate, M.H. Abraham, and R.A. McGill Lipid-Coated Acoustic Devices for Odour Sensing, I. Karube, S.-M. Chang, S. Sasaki, and K. Yokoyama Pattern Analysis Techniques, J.W. Gardner and E.L. Hines IndexSummary of the Contents B I. Introduction to the Handbook S 1. Biosensors and Electronic Noses for Practical Applications B II. Receptors, Membranes, and Devices for Biosensors S 2. Enzymes, Cofactors, and Mediators 3. Bioaffinity Agents for Sensing Systems 4. Probes for Nucleic Acids and Biosensors 5. Membranes to Improve Amperometric Sensor Characteristics 6. Microelectronic Devices 7. Surface Plasmon Resonance (SPR) for Biosensing 8. Immunosensors Based on Total Internal Reflectance 9. Acoustic Devices B III. Mediated Amperometric and Bioaffinity Sensors for Medicine, Food, and the Environment S 10. Mediated Amperometric Biosensors 11. Commercial Devices Based on Amperometric Biosensors 12. Microelectronic Biosensors for Clinical Applications 13. Calorimetric Biosensors 14. Microbial and Enzyme Sensors for Environmental Monitoring 16. Monitoring Immunoreactions with SPR 17. Fluorimetric Immunosensors B IV. On-line and In Vivo Monitoring and Control S 18. Optimized Biosensors in Clinical Applications 19. Biosensors for Process Monitoring 20. Fuzzy Logic in the Evaluation of Sensor Data B V. Towards the Electronic Nose S 21. Mammalian Semiochemistry: Chemical Signalling Between Mammals 22. Sense of Smell: Signal Recognition and Transduction in Olfactory Receptor Neurons 23. Semiconductor and Calorimetric Devices and Arrays 24. Arrays of Broad Specificity Films for Sensing Volatile Chemicals 25. Sorbent Polymer Materials for Chemical Sensors and Arrays 26. Lipid-Coated Acoustic Devices for Odour Sensing 27. Pattern Analysis Techniques
Introduction to the Handbook Biosensors and Electronic Noses for Practical Applications, E. Kress-Rogers Receptors, Membranes, and Devices for Biosensors Enzymes, Cofactors, and Mediators, S.F. White and A.P.F. Turner Bioaffinity Agents for Sensing Systems, D.J. Newman, Y. Olabiran, and C.P. Price Probes for Nucleic Acids and Biosensors, R.W. Titball and D.J. Squirrell Membranes to Improve Amperometric Sensor Characteristics, S.M. Reddy and P.M. Vadgama Microelectronic Devices, A. Grisel Surface Plasmon Resonance (SPR) for Biosensing, C.R. Lawrence and N.J. Geddes Immunosensors Based on Total Internal Reflection, R.P.H. Kooyman and L.M. Lechuga Acoustic Devices, A. D'Amico, C. Di Natale, and E. Verona Metabolism and Bioaffinity Sensors for Medicine, Food, and the Environment Mediated Amperometric Biosensors, S.F. White and A.P.F. Turner Commercial Devices Based on Amperometric Biosensors, F.W. Scheller and D. Pfeiffer Microelectronic Biosensors for Clinical Applications, G. Urban Calorimetric Biosensors, S. Kröger and B. Danielsson Microbial and Enzyme Sensors for Environmental Monitoring, C. Wittmann, K. Riedel, and R.D. Schmid Bioaffinity Sensors for Environmental Monitoring, C. Wittmann and R.D. Schmid Monitoring Immunoreactions with SPR, N.J. Geddes and C.R. Lawrence Fluorimetric Immunosensors, M. Wortberg, M. Orban, R. Renneberg, and K. Cammann On-Line and In Vivo Monitoring and Control Optimized Biosensors in Clinical Applications, D. Moscone and M. Mascini Biosensors for Process Monitoring, U. Bilitewski and I. Rohm Fuzzy Logic in the Evaluation of Sensor Data, P.G. Berrie Towards the Electronic Nose Mammalian Semiochemistry: Chemical Signalling between Mammals, E. Albone Sense of Smell: Signal Recognition and Transduction in Olfactory Receptor Neurons, H. Breer Semiconductor and Calorimetric Devices and Arrays, D. Kohl Arrays of Broad Specificity Films for Sensing Volatile Chemicals, K.C. Persaud and P.J. Travers Sorbent Polymer Materials for Chemical Sensors and Arrays, J.W. Grate, M.H. Abraham, and R.A. McGill Lipid-Coated Acoustic Devices for Odour Sensing, I. Karube, S.-M. Chang, S. Sasaki, and K. Yokoyama Pattern Analysis Techniques, J.W. Gardner and E.L. Hines IndexSummary of the Contents B I. Introduction to the Handbook S 1. Biosensors and Electronic Noses for Practical Applications B II. Receptors, Membranes, and Devices for Biosensors S 2. Enzymes, Cofactors, and Mediators 3. Bioaffinity Agents for Sensing Systems 4. Probes for Nucleic Acids and Biosensors 5. Membranes to Improve Amperometric Sensor Characteristics 6. Microelectronic Devices 7. Surface Plasmon Resonance (SPR) for Biosensing 8. Immunosensors Based on Total Internal Reflectance 9. Acoustic Devices B III. Mediated Amperometric and Bioaffinity Sensors for Medicine, Food, and the Environment S 10. Mediated Amperometric Biosensors 11. Commercial Devices Based on Amperometric Biosensors 12. Microelectronic Biosensors for Clinical Applications 13. Calorimetric Biosensors 14. Microbial and Enzyme Sensors for Environmental Monitoring 16. Monitoring Immunoreactions with SPR 17. Fluorimetric Immunosensors B IV. On-line and In Vivo Monitoring and Control S 18. Optimized Biosensors in Clinical Applications 19. Biosensors for Process Monitoring 20. Fuzzy Logic in the Evaluation of Sensor Data B V. Towards the Electronic Nose S 21. Mammalian Semiochemistry: Chemical Signalling Between Mammals 22. Sense of Smell: Signal Recognition and Transduction in Olfactory Receptor Neurons 23. Semiconductor and Calorimetric Devices and Arrays 24. Arrays of Broad Specificity Films for Sensing Volatile Chemicals 25. Sorbent Polymer Materials for Chemical Sensors and Arrays 26. Lipid-Coated Acoustic Devices for Odour Sensing 27. Pattern Analysis Techniques