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Nanobiosensors for environmental monitoring : fundamentals and application / / Ravindra Pratap Singh [and four others], editors



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Titolo: Nanobiosensors for environmental monitoring : fundamentals and application / / Ravindra Pratap Singh [and four others], editors Visualizza cluster
Pubblicazione: Cham, Switzerland : , : Springer, , [2022]
©2022
Descrizione fisica: 1 online resource (469 pages)
Disciplina: 610.28
Soggetto topico: Biosensors
Environmental monitoring - Equipment and supplies
Environmental monitoring
Persona (resp. second.): Pratap SinghRavindra
Nota di bibliografia: Includes bibliographical references.
Nota di contenuto: Intro -- Preface -- Acknowledgments -- Contents -- Editors and Contributors -- 1 Introduction to Nanobiosensors -- 1.1 Introduction -- 1.2 Types of Nanobiosensors -- 1.3 Properties and Fabrication of Nanobiosensors -- 1.4 Potentialities of Nanobiosensors in the Environment Domain -- 1.5 Miscellaneous Applications of Nanobiosensors -- 1.5.1 Agricultural -- 1.5.2 Biomedical -- 1.5.3 Food Safety and Monitoring Applications -- 1.6 Recent Trends and Limitations -- 1.7 Conclusion -- References -- 2 Classification, Properties, and Fabrication Techniques of Nanobiosensors -- 2.1 Introduction -- 2.2 Classification of Nanobiosensors -- 2.2.1 Classification Based on Transducer -- 2.2.2 Based on Bioreceptors -- 2.3 Properties of Nanobiosensors -- 2.4 Fabrication of Nanobiosensors -- 2.4.1 Physical Fabrication -- 2.4.2 Chemical Fabrication -- 2.4.3 Surface Modifications -- 2.5 Challenges and Future Perspectives -- 2.6 Conclusion -- References -- 3 Nanobiosensors' Potentialities for Environmental Monitoring -- 3.1 Introduction -- 3.2 Types of Nanobiosensors -- 3.2.1 NPs-Based Biosensors (NPBS) -- 3.2.2 NTs-Based Sensors (NTBS) -- 3.2.3 NWs-Based Sensors (NWBSs) -- 3.2.4 QDs-Based Sensors (QDNSs) -- 3.3 Nanobiosensors for Detection of Environmental Pathogens -- 3.3.1 Viruses -- 3.3.2 Fungus -- 3.3.3 Bacteria -- 3.4 Nanobiosensors for the Detection of Heavy Metals -- 3.5 Nanobiosensor for Detection of Soil and Air Contaminants -- 3.5.1 Soil Contaminants -- 3.5.2 Air Contaminants -- 3.6 Conclusion and Prospects -- References -- 4 Utilization of Nanobiosensors for Wastewater Management -- 4.1 Introduction -- 4.2 Nanobiosensors -- 4.3 Nanomaterials for Wastewater Treatment -- 4.4 Application and Importance of Nanobiosensors for Wastewater Treatment -- 4.5 Conclusion -- References -- 5 Nanobiosensors for Environmental Risk Assessment and Management.
5.1 Introduction -- 5.2 Environmental Risk Assessment -- 5.3 Nanobiosensors for Environmental Risk Assessment and Management -- 5.3.1 Hazard Identification -- 5.3.2 Risk Assessment and Evaluation -- 5.3.3 Risk Management and Communication -- 5.3.4 Monitoring and Feedback -- 5.4 Conclusion -- 5.5 Future Remarks -- References -- 6 Challenges and Scope in Nanobiosensors Utilization for Environmental Monitoring -- 6.1 Introduction -- 6.2 Importance of Nanobiosensors for Environmental Monitoring -- 6.3 Scope of Nanobiosensor in Environmental Monitoring -- 6.3.1 Detection of Heavy Metals -- 6.3.2 Detection of Microorganism -- 6.4 Nanobiosensors in Health Care -- 6.4.1 Nanobiosensors for Detection of Food- and Water-Borne Microorganisms -- 6.4.2 Nanobiosensors for Detection of Microbial Toxins -- 6.4.3 Nanobiosensors for Detection of Viruses -- 6.4.4 Nanobiosensors for Detection of Pesticide -- 6.5 Nanobiosensors for Environment Safety and Security -- 6.6 Conclusion -- References -- 7 Role and Significance of Nanobiosensors for Environmental Remediation -- 7.1 Introduction -- 7.2 Role and Significance of Nanobiosensors for Environmental Monitoring -- 7.3 Nanobiosensors for Environmental Remediation -- 7.3.1 Fertilizer Residues -- 7.3.2 Pesticide Detection -- 7.3.3 Heavy Metal Detection -- 7.3.4 Detection of Escherichia Coli -- 7.4 Conclusion and Outlook -- References -- 8 Bioluminescence Sensors for Environmental Monitoring -- 8.1 Introduction -- 8.1.1 Proper Organism-Application and Choice -- 8.1.2 Medicinal Plant-Cultivation Environment Monitoring -- 8.1.3 Infectious Disease Detection-Biosensor -- 8.1.4 Bacteria as Biosensors -- 8.2 The Principle of Bacterial Bioluminescent Biosensor -- 8.3 Aptamers -- 8.4 Heavy Metals -- 8.4.1 Arsenic -- 8.4.2 Lead -- 8.4.3 Silver (Ag) -- 8.5 Soil Contaminants-Aptamer.
8.5.1 Using Aptamer-Based Biosensors for Monitoring Lead in Soil -- 8.5.2 Agricultural Toxins Detection Present in Soil -- 8.6 Aptamers for Monitoring Air Quality -- 8.7 Bacterial Detection Aptamer-Based Biosensors -- 8.7.1 Listeria Monocytogenes -- 8.7.2 Vibrio Species -- 8.8 Applications of Bioluminescent Biosensors -- 8.8.1 Detection of Environmental Contaminants -- 8.8.2 Applications in the Food Industry -- 8.8.3 Bio Drug Delivery Systems -- 8.9 Perspectives and Recommendations -- 8.10 Conclusion -- References -- 9 Microbial and Plant Cell Biosensors for Environmental Monitoring -- 9.1 Introduction -- 9.2 Types of Biosensors -- 9.2.1 Gold Nanorods (GNRs-DNA) DNA Biosensors -- 9.2.2 Enzyme-Linked Immunosorbent Assay (ELISA) -- 9.2.3 Quartz Crystal Microbalance (QCM) Biosensor -- 9.2.4 Microbial Biosensors -- 9.3 The Environmental Application of Genetic/Protein Engineering and Synthetic Biology in the Development of Microbial Biosensor -- 9.4 Environmental Application of Biosensor -- 9.5 The Application of Plant Cell Biosensors for Environmental Monitoring -- 9.6 Application of Plant as a Biosensor of Pollutants in the Environment and Monitoring of Pollutants -- 9.7 Current Research Trends, Future Challenges, and Limitations of Biosensor Technology -- 9.8 Conclusion and Future Recommendation -- References -- 10 Biomimetic Material-Based Biosensor for Environmental Monitoring -- 10.1 Introduction -- 10.2 Biomimetic -- 10.3 Biomimetic Nanobiosensors -- 10.4 Pathogen Microorganisms -- 10.5 Butterfly Wings -- 10.6 Bioelectronic Nose -- 10.7 Nanoenzymes -- 10.8 Conclusion -- References -- 11 Chemiluminescence Sensors for Environmental Monitoring -- 11.1 Introduction -- 11.2 Instrumentation for CL Sensors -- 11.2.1 Light-Detection -- 11.2.2 Flow Injection Technique -- 11.3 Applications -- 11.3.1 Determination of the Analytes in the Air/Vapor.
11.3.2 Chemiluminescence-Based Sensors on Metal Ions and Non-metal Ions -- 11.3.3 Determination of the Analytes in the Liquid -- 11.4 Chemiluminescence for Reactive-Oxygen Species Sensing and Imaging Analysis -- 11.5 Conclusions and Prospects -- References -- 12 Nanobiosensor for Mycotoxin Detection in Foodstuff -- 12.1 Introduction -- 12.2 Categories of Mycotoxins -- 12.2.1 Fumonisins -- 12.2.2 Aflatoxins -- 12.2.3 Ochratoxins -- 12.2.4 Trichothecenes -- 12.2.5 Zearalenone -- 12.3 Orthodox Techniques for Mycotoxin Identification -- 12.3.1 Chromatographic-Based Methods -- 12.3.2 Immunochemical-Based Methods -- 12.3.3 Microarrays -- 12.4 Biosensors for the Recognition of Mycotoxins -- 12.5 Principle of Operational Manual of Nanomaterial in Nanobiosensors -- 12.6 Versatility of Nanomaterials in Mycotoxin Detection -- 12.7 Sensing Performance of Nanobiosensors for Mycotoxin Detection -- 12.8 Nanobiosensors for the Recognition of Mycotoxins -- 12.9 Benefits and Challenges Associated with Detection of Mycotoxin by Using Nanobiosensors -- 12.10 Conclusion and Future Aspects -- References -- 13 Current Existing Techniques for Environmental Monitoring -- 13.1 Introduction -- 13.2 Carbon Nanotubes (CNTs) -- 13.3 Functionalization -- 13.4 CNTs-Based Biosensors for HMI Sensing -- 13.4.1 Optical Biosensors -- 13.4.2 Field-Effect Transistor (FET) Biosensors -- 13.4.3 Electrochemical Biosensors -- 13.5 Applications of CNT-Based Sensors in Gas Sensing -- 13.5.1 CNT-Based Gas Sensors -- 13.5.2 Photosensors for Gas Sensing -- 13.5.3 FET Sensors for Gas Sensing -- 13.5.4 Pressure Sensors for Gas Sensing -- 13.6 Conclusion -- References -- 14 Molecularly Imprinted Polymers-Based Nanobiosensors for Environmental Monitoring and Analysis -- 14.1 Introduction -- 14.2 Molecularly Imprinted Polymers.
14.3 Application of MIP-Based Nanobiosensors for Environmental Monitoring and Analysis -- 14.3.1 Pesticide Detection -- 14.3.2 Pharmaceutical Product Detection -- 14.3.3 Heavy Metals Detection -- 14.4 Conclusion and Future Perspective -- References -- 15 Plasmonic Nanoparticles for Naked-Eye Detection of Environmental Pollutants -- 15.1 Introduction -- 15.2 Colorimetry-Based Plasmonic Nanoparticles -- 15.3 Plasmonic Nanoparticles -- 15.4 Noble Metal Nanomaterials -- 15.5 Plasmonic Nanoparticle-Based Naked-Eye Colorimetry Method -- 15.6 The Applications of the Plasmonic Nanoparticles in the Environmental Pollutant's Detection -- 15.6.1 Toxic Heavy Metal -- 15.6.2 Organo-Phosphate Pesticides -- 15.6.3 Aromatic Compounds -- 15.6.4 Other Pollutant Compounds -- 15.7 Conclusions and Future Outlooks -- References -- 16 Utility of Nano Biosensors for Heavy Metal Contamination Detection in the Environment -- 16.1 Introduction -- 16.2 Statistical Prevalence and Epidemiology of Heavy Metal Ion Contamination -- 16.3 Traditional Approaches for Arsenic (As) Monitoring in Water -- 16.3.1 Standard UV-Visible Technique -- 16.3.2 Mass Spectroscopic Techniques -- 16.3.3 Chromatographic Techniques -- 16.4 Current Approaches for Monitoring of Arsenic -- 16.4.1 Microbial Fuel Cell (MFC) Based Biosensor -- 16.4.2 Transducer Based Biosensors for Heavy Metal Detection -- 16.5 Commercially Available Sensors for Arsenic Detection -- 16.6 Conclusion and Future Prospect -- References -- 17 Nanobiosensors and Industrial Wastewater Treatments -- 17.1 Introduction -- 17.2 Nanomaterials for Wastewater Treatment -- 17.2.1 Nano Adsorption and Remediation -- 17.2.2 Membrane Filtration -- 17.2.3 Nanobiosensing and Monitoring -- 17.3 Industrial Wastewater Treatment -- 17.3.1 Based on Bio-recognition Elements -- 17.3.2 Based on the Type of Nanomaterial.
17.3.3 Applications of Nanobiosensors.
Titolo autorizzato: Nanobiosensors for Environmental Monitoring  Visualizza cluster
ISBN: 3-031-16106-8
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910624383503321
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