Carbon Nanomaterials-Based Sensors

Carbon Nanomaterials-Based Sensors

Emerging Research Trends in Devices and Applications

1st Edition - April 27, 2022

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  • Editors: Jamballi Manjunatha, Chaudhery Mustansar Hussain
  • Paperback ISBN: 9780323911740

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Description

Carbon Nanomaterials-Based Sensors: Emerging Research Trends in Devices and Applications covers the most recent research and design trends for carbon nanomaterials-based sensors for a variety of applications, including clinical and environmental uses, and more. Carbon nanomaterials-based sensors can be used with high sensitivity, stability and accuracy compared to other techniques. Written by experts in their given fields from around the world, this book helps researchers solve the particular challenges they face when developing new types of sensors. It instructs how to make sensitive, selective, robust, fast-response and stable carbon nanomaterial-based sensors, as well as how to utilize them in real life.

Key Features

  • Covers the environmental monitoring and analytical implications of electro-analytical methods, one of the most dynamically developing branches of carbon nanomaterials
  • Includes a complete discussion of functionalized nanostructure materials reformulated with noble materials and advanced characteristics for improved applications when compared to standard materials
  • Covers sustainability and challenges in the commercialization of carbon nanomaterials-based sensors

Readership

High-level researchers, people working in the industrial sector, post-graduate students, professors, and engineers in bio-analytical, clinical, food, and environmental fields

Table of Contents

  • Cover image
  • Title page
  • Table of Contents
  • Copyright
  • Contributors
  • Part I: Modern perspectives in sensor devices for sustainability
  • Chapter 1: Sustainable development information management of carbon nanomaterial-based sensors
  • Abstract
  • Introduction
  • Types of carbon nanomaterials
  • Carbon nanomaterial-based sensors for sustainable development
  • Conclusions
  • Conflicts of interest
  • References
  • Part II: Fabrication of carbon nanomaterials-based sensors platforms
  • Chapter 2: Carbon nanomaterial-based sensor: Synthesis and characterization
  • Abstract
  • Introduction of carbon nanomaterial-based sensors
  • Carbon nanomaterial synthesis method for sensors
  • Characterization of carbon nanomaterial-based sensors
  • References
  • Chapter 3: Novel trends for synthesis of carbon nanomaterial-based sensors
  • Abstract
  • Introduction
  • Electrochemical sensors
  • Working principle and classification of electrochemical sensors
  • Carbon nanomaterial-based electrochemical sensors
  • Synthesis of CNTs
  • Synthesis of graphene-based nanomaterials
  • Conclusion
  • References
  • Chapter 4: Development of new electroanalytical method based on graphene oxide-modified glassy carbon electrode for mephedrone illicit drug determination
  • Abstract
  • Acknowledgments
  • Introduction
  • Materials and methods
  • Results and discussion
  • Conclusion
  • References
  • Part III: Carbon nanomaterials-based sensor applications (environment, biomedical, foods, point of care, etc.)
  • Chapter 5: Carbon nanomaterials-based sensors for biomedical applications
  • Abstract
  • Introduction
  • Graphene
  • Carbon nanotubes
  • Fullerene
  • Nanodiamonds
  • Carbon quantum dots
  • Conclusion and outlook
  • References
  • Chapter 6: Fabrication of disposable sensor strips for point-of-care testing of environmental pollutants
  • Abstract
  • Introduction
  • Functionalization
  • Pollutants
  • Fabrication
  • Methods used to define hydrophobic zones on the paper
  • Conclusion
  • References
  • Chapter 7: Trends in carbon nanomaterial-based sensors in the food industry
  • Abstract
  • Introduction
  • References
  • Chapter 8: Carbon nanomaterial-based sensors in air pollution remediation
  • Abstract
  • Introduction
  • Nanomaterials in air pollution remediation
  • Brief history of carbon nanomaterials
  • Derivatives of carbon nanomaterials
  • Properties of carbon nanomaterials
  • Application of carbon nanomaterial-based sensors in air pollution remediation and relative mechanism
  • Conclusion
  • References
  • Chapter 9: Carbon nanomaterials-based sensors for water treatment
  • Abstract
  • Acknowledgments
  • Introduction
  • Voltammetric and amperometric sensors for water treatment
  • Configurations of the working electrode for voltammetric and amperometric sensors
  • Conclusion and future perspectives
  • References
  • Chapter 10: Carbon nanomaterial-based sensors: An efficient tool in the environmental sectors
  • Abstract
  • Acknowledgments
  • Introduction
  • Carbon-based nanomaterials used in sensor applications
  • Environmental sensor applications
  • Conclusion
  • References
  • Chapter 11: Graphene-based surface-enhanced Raman scattering as an efficient tool in the detection of toxic organic dyes in real industrial effluents
  • Abstract
  • Introduction
  • Graphene-boosted silver nanocomposites for graphene-based surface-enhanced Raman scattering in the detection of toxic organic dyes in real industrial effluents
  • Graphene-boosted silver nanocomposites for graphene-based surface-enhanced Raman scattering in the detection of toxic organic dyes in real industrial effluents
  • Conclusion
  • References
  • Part IV: Role of carbon nanomaterials-based sensors in sustainability
  • Chapter 12: Carbon nanomaterial-based sensors for the development of sensitive sensor platform
  • Abstract
  • Introduction
  • Overview of carbon nanomaterial chemistry
  • Carbon nanomaterial-based sensors
  • Conclusion and future prospects
  • References
  • Chapter 13: Carbon nanomaterial-based sensors for wearable health and environmental monitoring
  • Abstract
  • Introduction
  • Health monitoring
  • Environmental monitoring
  • Current limitation
  • Conclusions and future perspectives
  • References
  • Chapter 14: Advanced sensors based on carbon nanomaterials
  • Abstract
  • Acknowledgment
  • Introduction
  • Materials and methods
  • Experimental
  • Results and discussion
  • Future aspects, limitations, and advantages of electrochemical sensors
  • Conclusion
  • Conflict of interest
  • Authors’ contributions
  • References
  • Chapter 15: The role of carbon nanomaterial-based sensors in sustainability
  • Abstract
  • Introduction
  • Sustainability of carbon nanomaterial-based sensors
  • Conclusion
  • References
  • Chapter 16: Microfluidic systems with amperometric and voltammetric detection and paper-based sensors and biosensors
  • Abstract
  • Introduction
  • Basics of paper-based microfluidics
  • Fabrication methods for paper-based microfluidic devices
  • Detection techniques
  • Electrochemical detection in paper-based microfluidic devices and application
  • Conclusion and prospects
  • References
  • Part V: Health, safety, and regulation issues of carbon nanomaterials-based sensors
  • Chapter 17: Fundamentals of health, safety, and regulation issues of carbon nanomaterial-based sensors
  • Abstract
  • Acknowledgments
  • Introduction
  • Origin of toxicity
  • Toxicity mechanism of CNMs
  • Biocompatibility and biodegradation of CNMs
  • Conclusion
  • References
  • Chapter 18: Safety and ethics of carbon nanomaterial-based sensors
  • Abstract
  • Introduction
  • References
  • Chapter 19: Carbon nanomaterial-based sensor safety in different fields
  • Abstract
  • Introduction
  • Nanostructure classification
  • Synthesis, characterization, and applications of CNPs
  • Carbon nanomaterial-based sensors
  • CNPs in the environment: Discharge and destiny
  • Threats and endangerments in the context of the environment and econanotoxicology
  • Scope of future works
  • Conclusions
  • References
  • Part VI: Economics & commercialization of carbon nanomaterials-based sensors
  • Chapter 20: The use of carbon nanotubes material in sensing applications for H1-antihistamine drugs
  • Abstract
  • Introduction
  • Carbon nanotube-based sensors
  • H1-antihistamine drugs: Definition and classes
  • Determination of H1-antihistamine drugs
  • Working electrodes based on carbon nanotubes for the determination of H1-antihistamines
  • Conclusion
  • References
  • Chapter 21: Carbon nanomaterial-based sensors: Emerging trends, markets, and concerns
  • Abstract
  • Introduction
  • Emerging trends in carbon nanomaterial-based optical sensors
  • Role of carbon nanomaterials in electrochemical sensing
  • Market of carbon nanomaterials: Applications in sensors
  • Challenges/concerns of carbon nanomaterial-based sensors
  • Conclusions
  • References
  • Chapter 22: Challenges in commercialization of carbon nanomaterial-based sensors
  • Abstract
  • Introduction
  • Sensors
  • Carbon-based nanomaterials
  • Carbon nanotube chemical sensors
  • Ordered mesoporous and macroporous carbon-modified electrodes
  • Carbon quantum dots
  • Commercialization challenges based on carbon nanomaterials
  • Conclusion
  • References
  • Part VII: Future of sustainable sensors
  • Chapter 23: Introduction and overview of carbon nanomaterial-based sensors for sustainable response
  • Abstract
  • Introduction
  • Carbon-based nanomaterials
  • Carbon nanotubes for sensor applications
  • Nanodiamonds for sensor applications
  • Fullerenes for sensor applications
  • Graphenes for sensor applications
  • Carbon quantum dots in sensor applications
  • Conclusion
  • References
  • Chapter 24: Prospects of carbon nanomaterial-based sensors for sustainable future
  • Abstract
  • Introduction
  • Carbon and its transformation
  • Types of carbon nanomaterials (CNMs)
  • Sensors, carbon-based sensors
  • Sustainable carbon materials
  • Carbon quantum dots
  • Applications of sensors
  • Perspectives on sustainable graphitic structures
  • Sustainable discovery of CNMs
  • Conclusion
  • References
  • Further reading
  • Chapter 25: Sustainable carbon nanomaterial-based sensors: Future vision for the next 20 years
  • Abstract
  • Introduction
  • Nanodiamond-based sensors
  • Carbon nanotube-based sensors
  • Buckypaper-based sensors
  • Graphene-based gas sensors
  • Graphene oxide-based sensors
  • Reduced graphene oxide-based sensors
  • Fullerene-based sensors
  • Mesoporous carbon-based sensors
  • Carbon quantum dot-based sensors
  • Sensors based on carbon hybrid structures
  • Vision for next 20 years
  • References
  • Index

Product details

  • No. of pages: 466
  • Language: English
  • Copyright: © Elsevier 2022
  • Published: April 27, 2022
  • Imprint: Elsevier
  • Paperback ISBN: 9780323911740

About the Editors

Jamballi Manjunatha

He received his PhD degree in chemistry from Kuvemmpu University in 2012 and was a Postdoc Fellow from University of Kebangsaan Malaysia in 2014. His research interests focus on the fabrication of electrochemical sensors for the detection of biologically active molecules and the fabrication of binderless supercapacitors.

Affiliations and Expertise

Assistant Professor in Chemistry, FMKMC College Madikeri, Mangalore University, India

Chaudhery Mustansar Hussain

Chaudhery Mustansar Hussain is an Adjunct Professor at the New Jersey Institute of Technology. His research is focused on the application of nanotechnology and advanced materials, and analytical chemistry. He is the co-editor of Additive Manufacturing with Functionalized Nanomaterials (Elsevier, 2021).

Affiliations and Expertise

Adjunct Professor and Lab Director, Department of Chemistry and EVSC, New Jersey Institute of Technology, Newark, NJ, USA

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