| Autore |
Mathew Ribu
|
| Edizione | [1st ed.] |
| Pubbl/distr/stampa |
Singapore : , : Springer Singapore Pte. Limited, , 2024
|
| Descrizione fisica |
1 online resource (351 pages)
|
| Altri autori (Persone) |
AjayanJ
|
| Collana |
Springer Tracts in Electrical and Electronics Engineering Series
|
| ISBN |
981-9730-48-1
|
| Formato |
Materiale a stampa  |
| Livello bibliografico |
Monografia |
| Lingua di pubblicazione |
eng
|
| Nota di contenuto |
Intro -- Preface -- Contents -- Editors and Contributors -- Abbreviations -- 1 Biosensor Classification and Principle Operation -- Introduction to Biosensors -- Types of Biosensors -- Enzymatic Biosensors -- Immunological Biosensors -- Nucleic Acid Biosensors -- Optical Biosensors -- Electrochemical Biosensors -- Piezoelectric Biosensors -- Other Applications of Biosensors -- Recent Advances in Biosensor Technology -- Challenges in biosensor development -- References -- 2 Bioresorbable Biosensors -- Introduction -- Material Set for Bioresorbable Biosensors -- Applications -- Future and Challenges -- References -- 3 Recent Development of Electrochemical Biosensor: Focused on Immunosensor and Aptasensor -- Introduction -- Electrochemical Biosensor -- Biomaterials for Electrochemical Biosensor -- Antibody -- Aptamer -- Nanomaterial for Electrochemical Biosensor -- Metal -- Carbon -- Other Functional Nanomaterials (TMD, MXene) -- Electrochemical Antibody-Based Biosensor -- Disease -- Virus -- Environmental Toxin -- Electrochemical Aptamer-Based Biosensor -- Disease -- Virus -- Blue-Green Algae -- Conclusion and Future Perspectives -- References -- 4 Flexible and Wearable Biosensors -- Flexible and Wearable Electrochemical Biosensors -- Glucose Biosensors -- Ion Biosensors -- Other Electrochemical Biosensors -- Flexible and Wearable Optical Biosensors -- Fiber Biosensors -- Colorimetric Biosensors -- Flexible and Wearable FET Biosensors -- Fundamentals of FET Biosensors -- Materials of FET Biosensors -- Applications -- Flexible and Wearable Physical Quantity Biosensors -- Temperature Sensors -- Stress-Strain Sensors -- Bioelectric Sensors -- Other Physical Quantity Biosensors -- Summary -- References -- 5 Current Progress in Transition Metal Oxide-Based Electrochemical Biosensors -- Introduction.
Transition Metal Oxide (TMO) Nanoparticle Synthesis Methods -- Electrode Surface Modification Techniques -- Different TMO-Based Electrochemical Biosensor -- Conclusion and Perspectives -- References -- 6 Triple Material Dual Gate Dopingless TFET Biosensor with Symmetrical Gate Structure -- Introduction -- Device Details -- Results and Discussions -- Conclusion -- References -- 7 Recent Advancement in TFET-Based Biosensor Addressing Technique and Outcome: A Review -- Introduction -- Theory -- Biosensor and Classifications -- TFET-Based Biosensor's Structure and Operation -- Various Structures of TFET-Based Biosensors -- Biosensor Based on Dielectric Modulated Dual Channel Trench Gate Tunnel FET (DM-DCTG-TFET) -- Label-Free Z-shaped Charge Plasma TFET-Based (CP-TFET) Biosensor -- Nanogap Embedded Hetero-Stacked Source Tunnel FET (HSS-TFET) -- Heterostructure Vertical Tunnel FET (HV-TFET) -- Charge-Plasma-Based Dielectric-Modulated Junctionless TFET for Biosensor Label-Free Detection -- Gate All Around Tunnel Feld Effect Transistor (GAATFET) Biosensors -- Dual-Metal-Gate Double-Cavity Charge-Plasma-TFET as a Label-Free Biosensor -- Dielectrically Modulated Source-Engineered Charge-Plasma-Based Schottky-FET as a Label-Free Biosensor -- Junction Free Electrostatically Doped Tunnel-FET-Based Biosensor -- Dielectrically Modulated III-V Compound Semiconductor-Based Pocket Doped Tunnel FET for Label-Free Biosensing Applications -- Horizontal Pocket N-TFET-Based Biosensor -- Inverted T-shaped Negative Capacitance TFET Biosensor -- Dielectrically Modulated Ferroelectric-TFET (Ferro-TFET)-Based Biosensors -- I-Shape TFET Biosensor -- Performance Parameters of TFET-Based Biosensors -- Sensitivity Comparison of Various Types of TFET Biosensor -- Challenges in Device Design of TFET-Based Biosensor for High Performance -- Current State and Future Perspective.
Conclusion -- References -- 8 Graphene-Based Electrochemical Glucose Biosensor, Critical Review -- Introduction -- Strategies for Graphene Synthesis -- Top-Down Approach -- Bottom-Up Approach -- Chemical Vapor Deposition (CVD) -- Pyrolysis -- Electrochemical Graphene Biosensor -- Current Challenges and Future Perspectives -- Conclusion -- References -- 9 Polymer Organic Biosensors -- Introduction -- Biosensors -- Enzyme-Based Biosensors -- Antibody-Based Biosensors -- Whole Cell-Based Biosensors -- Aptamers-Based Biosensors -- Affibodies -- Molecularly Imprinted Polymers -- Polymer Matrix and Immobilization Techniques -- Physical or Reversible Methods -- Chemical Methods -- Bibliogrpahy -- 10 Recent Advances in Plasmonic Biosensors for Digital Healthcare Applications -- Introduction -- What is Biosensor? -- What is Plasmonic Biosensor? -- Plasmonic Biosensors Offer Several Advantages -- Biosensors in the Digital Healthcare Era -- Principles of Plasmonic Biosensors -- SERS-Based Biosensing -- Functionalization and Applications -- Innovative Designs in Plasmonic Biosensors -- Integration with Digital Platforms -- Advantages of Plasmonic Biosensor -- Plasmonic Biosensors for Human Health Monitoring -- Blood Glucose/Uric Acid Plasmonic Biosensors -- Plasmonic Temperature Biosensors -- COVID-19 Plasmonic Biosensors -- Plasmonic Biosensors for Disease Detection -- Concluding Remarks with Challenges and Future Prospects -- Declaration of Competing Interest -- References -- 11 Thermal Radiative Flux Effect on Flow and Heat Transfer of CNTs-Water Nanofluid Through Convective Heated Riga Sensor Surface -- Introduction -- Mathematical Description -- Problem Description and Governing Equations -- Similarity Conversion -- Numerical Approach with Validation -- Physical Results and Discussion -- Conclusion -- References.
12 Flexible and Wearable Biosensors: Revolutionizing Health Monitoring -- Introduction -- Epidermal Wearable Sensors -- Epidermal Wearable Sweat Sensors -- Epidermal Wearable ISF Sensors -- Challenges and Future Prospects -- Ocular Wearable Biosensors -- Challenges and Future Prospects -- Oral Cavity Wearable Biosensors -- Challenges and Prospects -- Microfluidics for Flexible and Wearable Biosensors -- Flexible Electronics for Wearable Biosensing -- Powering for Wearable and Flexible Biosensors -- Artificial Intelligence (AI) and Machine Learning (ML) for Wearable Biosensing -- Wearable Biosensors in Commercial Market -- Conclusion -- References -- 13 Biosensors in Agriculture: Pioneering the Future of Precision Farming and Sustainability -- Introduction -- History of Biosensors Used in Agriculture -- General Characteristics of Biosensor -- Components of Biosensors -- Working Mechanism of Biosensors -- Types of Biosensors -- Electrochemical Biosensor -- Optical Biosensor -- Piezoelectric Biosensors -- Immunosensor -- Types of Biosensors Use in Agriculture -- Soil Biosensors -- Crop Health Biosensors -- Weather and Environmental Biosensors -- Remote Sensing and Imaging Biosensors -- Gas Biosensors -- Working Mechanism of Few Important Agro-Biosensors -- Detection of Toxic Pesticides -- Detection of Abiotic and Biotic Stresses in Plants -- Quality Assessment of Harvested Products -- Challenges of Using Biosensors in Agriculture -- Conclusion and Future Prospective -- References -- 14 Artificial Intelligence Based Quality Control in 3D Bio-printing -- Introduction -- Fundamentals of 3D Bioprinting -- Techniques and Materials Used in 3D Bioprinting -- Current Applications of 3D Bioprinting -- Quality Control in 3D Bioprinting -- Traditional Methods of Quality Control in 3D Bioprinting -- Benefits of AI-Based Quality Control in 3D Bioprinting.
AI Algorithms for Quality Control in 3D Bioprinting -- Overview of AI Algorithms -- How AI Algorithms Can Be Used in 3D Bioprinting -- Implementation of AI Quality Control in 3D Bioprinting -- Integration of AI with 3D Bioprinting Processes -- Case Studies of Successful Implementation of AI-Based Quality Control in 3D Bioprinting -- Prospects and Challenges for AI-Based Quality Control in 3D Bioprinting -- Conclusion -- References -- 15 Reliability Issues and Challenges in Biosensor Development -- Introduction -- Issues Associated with the Biological Recognition Element -- Limitations and Challenges of the Transduction System -- Adsorption Issues -- Matrix Effect Issues -- Miniaturization of Biosensors -- Conductivity and Cracking on Conductive Inks -- Printed Electrodes -- Validation of Biosensors -- Analytical Range -- Upper and Lower Limits -- Stability -- Robustness -- Selectivity and Specificity -- Precision and Accuracy -- Commercialization of Biosensors -- Conclusions -- References.
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| Record Nr. | UNINA-9910865283703321 |
Info
Biosensors
