| Description |
1 online resource (187 p.) |
| Contents |
Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Preface -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENT -- Basic Principle of Biosensor -- Classification of Biosensors Based on Transducers -- Electrochemical Biosensors -- Optical Biosensors -- Mass-Base Biosensors -- Thermal Biosensors -- Energy Biosensors -- Classification of Biosensors Based on Bioreceptor -- Enzyme -- Antibody -- Aptamers -- Cells -- Microbial -- Electrochemical Biosensors -- Fundamentals and Terminology -- Voltammetric Biosensors -- Potentiometric Biosensors |
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The Food Production Industry -- CONCLUSION -- REFERENCES -- Electrochemical Biosensors Design Steps -- INTRODUCTION -- Electrochemical Biosensors Design Steps -- Step 1: Desired Analyte Selection -- Step 2: Biosensing Mode Determination -- Step 3: Working Electrode and Cell Elements Selection -- Step 4: Material Platform Design -- Step 5: Biological Element Determination -- Step 6: Immobilization Method Design -- Step 7: Post Processing -- Step 8: DOE of Previous Steps -- Step 9: Biosensor Functional Characterization -- Step 10: Data Analysis and Reporting -- Biosensing Mode Determination |
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Detection or Measurement Mode Based on Process -- Detection or Measurement Mode Based on Electrochemical Transduction -- Biological Element Determination -- Immobilization Method Design -- Methods of Reversible Immobilization -- Post Processing -- Inner and Outer Membranes -- Biocompatible and Biostable Surfaces -- Biosensor Functional Characterization and Reporting -- Calibration Characteristics -- Selectivity -- Reliability -- Steady-state and Transient Response Times -- Sample Throughput and Recovery Time -- Reproducibility -- Stability -- Lifetime -- CONCLUSION -- REFERENCES |
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Material and Biomaterial for Biosensing Platform -- INTRODUCTION -- Carbone-Based Materials -- Fullerenes -- Graphene -- Nanodiamonds of Carbon -- Carbon Nanohorns -- Carbon Dots -- Carbon Nanofibers -- Polymers and Conductive Polymers -- Identification Element Immobilization Techniques -- Assortments of MNPPF for Electrochemical Biosensors and Transducers -- Electrochemical Biosensing Based on MNPPFs -- Nanoparticles -- Gold Nanoparticles -- Platinum Nanoparticles -- Silver Nanoparticles -- Palladium Nanoparticles -- Nickel Nanoparticles -- Copper Nanoparticles -- Iron(III) Oxide Nanoparticles |
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Titanium Dioxide Nanoparticles -- Zinc Oxide Nanoparticles -- Zeolites and other Aluminosilicates with Nanoscale Structure -- Inorganic Quantum Dots -- Doped Inorganic NMS -- Nanostructured Carbon Black -- Calixarenes -- Biological Elements and Biomaterials -- Enzymatic Nanocomposites -- Nucleic Acid Nanocomposites -- Immunoassay Based Nanocomposites -- Aptasensor -- Biopolymeric Nanocomposites -- Composite and Sandwich Platforms -- Sandwich Platform -- Composite -- CONCLUSION -- REFERENCES -- Basic Practical Principles for Studying Electro- chemical Biosensors -- INTRODUCTION |
| Summary |
A biosensor is an integrated receptor-transducer device that converts a biological response into an electrical signal. The design and development of biosensors have taken center stage for researchers or scientists in the recent decade owing to the wide range of biosensor applications in healthcare and disease diagnosis, environmental monitoring, water and food quality, and drug delivery. Due to their adaptability, ease of use in relatively complex samples, and |
| Notes |
Description based upon print version of record |
|
Design of Experiments |
| Form |
Electronic book
|
| Author |
Katebi, Seyed Mahdi
|
|
Ghorbanzade, Sadegh
|
| ISBN |
9789815123944 |
|
9815123947 |
|
