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by Florinel-Gabriel Banica
Chemical Sensors and Biosensors: Fundamentals and Applications
Cover
Title Page
Copyright
Dedication
Preface
Acknowledgements
List of Symbols
List of Acronyms
Chapter 1: What are Chemical Sensors?
1.1 Chemical Sensors: Definition and Components
1.2 Recognition Methods
1.3 Transduction Methods
1.4 Sensor Configuration and Fabrication
1.5 Sensor Calibration
1.6 Sensor Figures of Merit
1.7 Sensor Arrays
1.8 Sensors in Flow Analysis Systems
1.9 Applications of Chemical Sensors
1.10 Literature on Chemical Sensors and Biosensors
1.11 Organization of the Text
References
Chapter 2: Protein Structure and Properties
2.1 Amino Acids
2.2 Chemical Structure of Proteins
2.3 Conformation of Protein Macromolecules
2.4 Noncovalent Chemical Bonds in Protein Molecules
2.5 Recognition Processes Involving Proteins
2.6 Outlook
References
Chapter 3: Enzymes and Enzymatic Sensors
3.1 General
3.2 Enzyme Nomenclature and Classification
3.3 Enzyme Components and Cofactors
3.4 Some Enzymes with Relevance to Biosensors
3.5 Transduction Methods in Enzymatic Biosensors
3.6 Kinetics of Enzyme Reactions
3.7 Enzyme Inhibition
3.8 Concluding Remarks
References
Chapter 4: Mathematical Modeling of Enzymatic Sensors
4.1 Introduction
4.2 The Enzymatic Sensor under External Diffusion Conditions
4.3 The Enzymatic Sensor under Internal Diffusion Control
4.4 The General Case
4.5 Outlook
References
Chapter 5: Materials and Methods in Chemical–Sensor Manufacturing
5.1 Introduction
5.2 Noncovalent Immobilization at Solid Surfaces
5.3 Covalent Conjugation
5.4 Supports and Support Modification
5.5 Affinity Reactions
5.6 Thin Molecular Layers
5.7 Sol-Gel Chemistry Methods
5.8 Hydrogels
5.9 Conducting Polymers
5.10 Encapsulation
5.11 Entrapment in Mesoporous Materials
5.12 Polymer Membranes
5.13 Microfabrication Methods in Chemical-Sensor Technology
5.14 Concluding Remarks
References
Chapter 6: Affinity–Based Recognition
6.1 General Principles
6.2 Immunosensors
6.3 Immobilization Methods in Immunosensors
6.4 Immunoassay Formats
6.5 Protein and Peptide Microarrays
6.6 Biological Receptors
6.7 Artificial Receptors
6.8 Outlook
References
Chapter 7: Nucleic Acids in Chemical Sensors
7.1 Nucleic Acid Structure and Properties
7.2 Nucleic Acid Analogs
7.3 Nucleic Acids as Receptors in Recognition Processes
7.4 Immobilization of Nucleic Acids
7.5 Transduction Methods in Nucleic Acids Sensors
7.6 DNA Microarrays
7.7 Outlook
References
Chapter 8: Nanomaterial Applications in Chemical Sensors
8.1 Generals
8.2 Metallic Nanomaterials
8.3 Carbon Nanomaterials
8.4 Polymer and Inorganic Nanofibers
8.5 Magnetic Micro- and Nanoparticles
8.6 Semiconductor Nanomaterials
8.7 Silica Nanoparticles
8.8 Dendrimers
8.9 Summary
References
Chapter 9: Thermochemical Sensors
9.1 Temperature Transducers
9.2 Enzymatic Thermal Sensors
9.3 Thermocatalytic Sensors for Combustible Gases
Chapter 10: Potentiometric Sensors
10.1 Introduction
10.2 The Galvanic Cell at Equilibrium
10.3 Ion Distribution at the Interface of Two Electrolyte Solutions
10.4 Potentiometric Ion Sensors – General
10.5 Sparingly Soluble Solid Salts as Membrane Materials
10.6 Glass Membrane Ion Sensors
10.7 Ion Sensors Based on Molecular Receptors. General Aspects
10.8 Liquid Ion Exchangers as Ion Receptors
10.9 Neutral Ion Receptors (Ionophores)
10.10 Molecularly Imprinted Polymers as Ion-Sensing Materials
10.11 Conducting Polymers as Ion-Sensing Materials
10.12 Solid Contact Potentiometric Ion Sensors
10.13 Miniaturization of Potentiometric Ion Sensors
10.14 Analysis with Potentiometric Ion Sensors
10.15 Recent Advances in Potentiometric Ion Sensors
10.16 Potentiometric Gas Sensors
10.17 Solid Electrolyte Potentiometric Gas Sensors
10.18 Potentiometric Biocatalytic Sensors
10.19 Potentiometric Affinity Sensors
10.20 Summary
References
Chapter 11: Chemical Sensors Based on Semiconductor Electronic Devices
11.1 Electronic Semiconductor Devices
11.2 FED Ion Sensors and Their Applications
11.3 FED Gas Sensors
11.4 Schottky-Diode-Based Gas Sensors
11.5 Carbon-Nanotube-Based Field-Effect Transistors
11.6 Concluding Remarks
References
Chapter 12: Resistive Gas Sensors (Chemiresistors)
12.1 Semiconductor Metal Oxide Gas Sensors
12.2 Organic-Material-Based Chemiresistors
12.3 Nanomaterial Applications in Resistive Gas Sensors
12.4 Resistive Gas Sensor Arrays
12.5 Summary
References
Chapter 13: Dynamic Electrochemistry Transduction Methods
13.1 Introduction
13.2 Electrochemical Cells in Amperometric Analysis
13.3 The Electrolytic Current and its Analytical Significance
13.4 Membrane-Covered Electrodes
13.5 Non-Faradaic Processes
13.6 Kinetics of Electrochemical Reactions
13.7 Electrochemical Methods
13.8 Electrode Materials
13.9 Catalysis in Electrochemical Reactions
13.10 Amperometric Gas Sensors
References
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