Multifaceted Bio-sensing Technology

1st Edition - November 8, 2022
Imprint: Academic Press
Editors: Lakhveer Singh, Durga Madhab Mahapatra, Smita S. Kumar
Language: English
Paperback ISBN:
9 7 8 - 0 - 3 2 3 - 9 0 8 0 7 - 8
eBook ISBN:
9 7 8 - 0 - 3 2 3 - 9 9 8 0 9 - 3

Multifaceted Bio-sensing Technology introduces the different types of biosensors, their construction materials, configurations, production methods, and their uses in bioelectr… Read more

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Multifaceted Bio-sensing Technology introduces the different types of biosensors, their construction materials, configurations, production methods, and their uses in bioelectrochemical fuel cells (BEFC). It focuses on recent progress in the production of biosensing platforms/interfaces, their integration, design and fabrication, and their multifaceted applications in bioelectrochemical systems. The chapters explore the integration of genetic elements such as DNA, enzymes, and whole cells within these systems, and address environmental applications including wastewater contaminant detection, toxicity, and bioremediation. Throughout, the book shows how rapid, minuscule, and affordable biocomponents can be produced for a variety of energy and environmental applications.

This book provides a practical introduction to the production of biocomponents for bioelectrochemical devices and environmental monitoring, and will be a useful reference for graduates and researchers involved in the application of bioelectrochemical systems, as well as those working more broadly in bioenergy, electrochemistry, biology, environmental engineering, and multidisciplinary research across those areas.

Cover Image
Title Page
Copyright
Table of Contents
Contributors
Editors’ biographies
Chapter 1 Introduction to sensors and types of biosensors
1.1 Introduction
1.2 Classification of sensor
1.3 Biosensors
1.4 Types of biosensors
1.5 Conclusion
Declaration
Acknowledgement
References
Chapter 2 Progress and prospects of sensors
2.1 Introduction
2.2 Introduction to biosensors
2.3 Main components of biosensors
2.4 Characteristics of biosensors
2.5 Classification of biosensors
2.6 Applications of biosensors
2.7 Conclusions
References
Chapter 3 Fundamentals of sensors and biosensors: An overview
3.1 Introduction
3.2 Biosensor
3.3 Types of biosensors
Amperometric
Potentiometric
Voltammetric
3.4 Advantages of biosensors in different field
3.5 Conclusion
References
Chapter 4 Prospect of environmental application of bioelectrochemical sensing
4.1 Introduction
4.2 Principles of BESs
4.3 Extracellular electron transfer (EET)
4.4 Direct electron transfer (DET) via electroactive microbes
4.5 Mediated electron transfer (MET)
4.6 Bioelectrochemical systems (BESs)
4.7 Classification of BESs
4.8 BESs as a pollution detection biosensor
4.9 BESs for environmental remediation
4.10 Conclusion and future outlook
References
Chapter 5 Potential and practical applications of bioelectrochemical sensors
5.1 Introduction
5.2 Electrochemical biosensors
Enzyme-based electrodes
Interference-based enzyme electrodes
Biosensors based on tissue and bacteria
Immunoassays and immunosensors
DNA hybridization biosensors
Biosensors based on receptors
5.3 Recognition elements for biosensor
5.4 Conclusion
References
Chapter 6 Biochemical interfaces for bioelectrochemical sensors
6.1 Introduction
6.2 Biosensors
6.3 Biointerface
6.4 Urease bioelectrochemical sensor
6.5 Electrochemical enzyme biosensors
6.6 Electrochemical aptamer biosensor
6.7 Surface plasmon resonance (SPR) sensors
6.8 Tilted fiber Bragg grating (TFBG)
6.9 Advances in the applications of the bioelectrochemical sensors
6.10 Electrochemical detection techniques
6.11 Key challenges for bioelectrochemical interface
References
Chapter 7 Challenges and future prospects in bioelectrochemical sensors
7.1 Introduction
7.2 Some applications of bio electrochemical sensors
7.3 Challenges in devices
7.4 Challenges in characterization
7.5 Future prospects
References
Chapter 8 Recent advances in bioelectroanalytical sensors based on molecularly imprinted polymeric surfaces
8.1 Introduction
8.2 Molecularly imprinting technology
8.3 Synthesis of molecularly imprinted polymers
8.4 Principles behind MIP-based sensors: theoretical aspects
8.5 Recent developments in bioelectrochemical sensors based on MIP surfaces
8.6 Molecularly imprinted polymers: the challenges
8.7 Solutions to the problems
8.8 Conclusion
References
Chapter 9 Electrochemical cyclic voltametric and kinetics of vanillin formation over TiMMO electrodes from agroresidue black liquor
9.1 Introduction
9.2 Experimental
9.3 Results and discussion
9.4 Conclusion
Acknowledgement
References
Chapter 10 Biosensors as recognition tool for bioelements
10.1 Working of biosensor
10.2 Transducer-based biosensors
10.3 Analyte-based biosensors
10.4 Applications of biosensor in environmental monitoring
10.5 Future Perspectives
References
Chapter 11 Comprehensive chemistry for electrochemical enzyme biosensors
11.1 Introduction
Activation of carboxylic group on support materials
Activation of amine group on support materials
Activation of hydroxy group on support materials
Gold support materials
Electrochemical doping
Chelating agent-metal ion-(poly)histidine
Biotin-(strept) avidin
Lectin-carbohydrate
Electropolymerization
Photopolymerization
Sol-gel process
References
Chapter 12 Development of paper biosensors using enzyme immobilized nanostructures using printing electronics
12.1 Introduction
12.2 Biosensors
12.3 Classification of biosensors
12.4 Structure of biosensors
12.5 Enzymes
12.6 Enzyme immobilization
12.7 Low-cost alternate substrate
12.8 Functional materials
12.9 Printing of functional materials
12.10 Applications of enzyme immobilized printed paper biosensor
12.11 Food safety
12.12 Medical diagnostic
12.13 Conclusions
12.14 Future scope
References
Chapter 13 Scaffold assisted synthesized metallic and semiconductor nanowires for electrochemical biosensing applications
13.1 Introduction
13.2 Synthesis of nanowires
13.3 Electrochemical biosensing applications
References
Chapter 14 Biomedical applications of bioelectrochemical sensors
14.1 Introduction
14.2 Types of electrochemical biosensors
14.3 Biomedical applications of electrochemical biosensors
References
Index

Lakhveer Singh

Lakhveer Singh is an Associate Professor at the Department of Chemistry, Sardar Patel University, Mandi, Himachal Pradesh-175001, India. Earlier, he worked as an Associate Professor at SRM University-AP and University Malaysia Pahang, Malaysia and as post-doctoral researcher at Oregon State University, Corvallis, USA. His major areas of research expertise are Energy Production, Bioelectrochemical Systems, Wastewater Treatment, and Nanomaterial Synthesis for Sustainable Applications. He is enlisted in the world top 2% scientists list released in 2021 by Stanford University in the field of energy and environment.

Affiliations and expertise

Department of Chemistry, Sardar Patel University, Mandi, Himachal Pradesh-175001, India

Durga Madhab Mahapatra

Durga Madhab Mahapatra is an Assistant Professor (Selection Grade) at the Department of Chemical Engineering, Energy Cluster, School of Advanced Engineering, University of Petroleum and Energy Studies (UPES), Dehradun, India. Before joining UPES, he was with the Department of Biological and Ecological Engineering (BEE), School of Engineering (SoE), Oregon State University (OSU), Corvallis, OR, USA from 2016 onwards as a Postdoctoral Fellow, Teaching staff, and Affiliate. He completed his Doctoral studies in Bioprocess Engineering, from the Indian Institute of Science (IISc), Bangalore in 2015 from the Faculty of Engineering with a Gold Medal. His major areas of interest are Sustainable Bioprocess Development, Bioenergy and Bioresources, Wastewater Metagenomics, Wastewater Treatment and Waste Biorefinery, and Nano-biotechnological Applications in Agricultural, and Environmental Research.

Affiliations and expertise

Department of Chemical Engineering, Energy Cluster, School of Advanced Engineering, University of Petroleum and Energy Studies, Dehradun, Uttrakhand, India

Smita S. Kumar

Smita Kumar is faculty in the Department of Environmental Studies, Central University of Haryana, Mahendragarh, Haryana, India. She is skilled in environmental issues, particularly water and wastewater treatment and bioenergy generation. Her Ph.D. focused on bioelectrochemical stabilization of landfill leachate using Microbial Fuel Cell Technology. She did her post-doctoral research from Centre for Rural Development and Technology, Indian Institute of Technology Delhi. Her research interests include Water and Wastewater Treatment; Environmental Pollution Assessment and Abatement; Environmental Biotechnology; Bio-energy Production; Landfill Leachate Treatment; and Bioremediation. She is enlisted in the world’s top 2% scientists list as released in 2021 by Stanford University in the field of environment.

Affiliations and expertise

Department of Environmental Studies, Central University of Haryana, Jant-Pali-Mahendergarh, Haryana, India; Department of Environmental Studies, J.C. Bose University of Science & Technology, YMCA, Faridabad, Haryana, India

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Multifaceted Bio-sensing Technology

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