Analytical Applications of Graphene Oxide

1st Edition, Volume 106 - June 27, 2024
Imprint: Elsevier
Editor: Suresh Kumar Kailasa
Language: English
Hardback ISBN:
9 7 8 - 0 - 4 4 3 - 2 9 6 4 2 - 0
eBook ISBN:
9 7 8 - 0 - 4 4 3 - 2 9 6 4 3 - 7

Analytical Applications of Graphene Oxide, Volume 106 in the Comprehensive Analytical Chemistry series, presents timely topics in this area of study. Chapters in this new release i… Read more

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Analytical Applications of Graphene Oxide, Volume 106 in the Comprehensive Analytical Chemistry series, presents timely topics in this area of study. Chapters in this new release include 2. Surface Modifications of Graphene Oxide Nanomaterials for Analytical Applications, Analytical techniques for the characterization of graphene oxide, Perspectives of graphene oxide in separation science, Features of graphene oxide-based membranes in water purification, Graphene oxide nanocomposites for the removal of inorganic species, Graphene oxide nanocomposites as promising adsorbents for removal of organic pollutants, Graphene oxide-based metal nanocomposites for colorimetric sensing applications, Graphene oxide-based fluorescence analytical methods for bioassays, and much more.

Additional sections delve into Graphene oxide in molecular biology approaches for nucleic acid detection, Analytical applications of graphene oxide-based hydrogels, Magnetic graphene oxide in analytical science, Applications of Magnetic graphene oxide in water decontamination, Graphene oxide nanocomposites in electroanalytical tools for assaying of organic and biomolecules, Graphene oxide in electroanalytical tools for the detection of inorganic species, and much more.

Cover image
Title page
Table of Contents
Series Page
Copyright
Contributors to Volume 106
About the editor
Preface
Series editor’s preface
Chapter One: Surface modifications of graphene oxide nanomaterials for analytical applications
Abstract
1 Introduction
2 Significance over the surface modification of GO
3 Preparation methods of GO
4 Surface modification of GO via chemical interaction
5 Structural surface modifications of GO
6 Application of structurally modified GO in analytical chemistry
7 Conclusion
8 Future prospective over the structural surface modification of GO
References
Chapter Two: Analytical techniques for the characterization of graphene oxide
Abstract
1 Introduction
2 Structural features of graphene oxide
3 Characterization techniques
4 Summary and conclusion
References
Chapter Three: Graphene oxide-based metal nanocomposites for colorimetric sensing applications
Abstract
1 Introduction
2 Synthesis methodology
3 Effects of different parameters on the synthesis process
4 Properties of GO, rGO, and M-rGO
5 Types of M-rGO based colorimetric sensors
6 Application of M-rGO based sensors
7 Conclusions and future perspectives
References
Chapter Four: Graphene oxide-based fluorescence analytical methods for bioassays
Abstract
1 Introduction
2 Graphene oxide based bioassays
3 Conclusion and future perspective
Acknowledgments
References
Chapter Five: Graphene oxide in molecular biology approaches for nucleic acid detection
Abstract
1 Introduction
2 GO-based probe design to detect DNA
3 Summary
References
Chapter Six: Graphene oxide in electroanalytical tool for detection of inorganic species
Abstract
1 Introduction
2 Synthesis of graphene oxide
3 Electrochemical properties of GO and functionalization
4 Mechanism for detection of metal ions and anions using GO as a sensing probe
5 Applications
6 Conclusion
References
Chapter Seven: Graphene oxide nanocomposites in electroanalytical tools for assaying of organic and biomolecules
Abstract
1 Introduction
2 Graphene oxide nanocomposites: Synthesis, characterization, and properties
3 Graphene oxide nanocomposites for organic molecules detection
4 Graphene oxide nanocomposites for biomolecules detection
5 Conclusion and future perspectives
References
Chapter Eight: Graphene-based nanomaterials for the electrochemical sensing of nitroaromatic compounds
Abstract
1 Introduction
2 Methodology of electrochemical detetction
3 Graphene-based composites used for electrochemical sensing of nitroaromatic compounds
4 Conclusion
Acknowledgments
References
Chapter Nine: Graphene oxide-based electrochemical sensors for the detection of pathogenic microbial species
Abstract
1 Introduction
2 GO-based electrochemical sensors
3 Summary
Acknowledgments
References
Chapter Ten: Graphene oxide in surface enhanced Raman spectroscopy for sensing and imaging applications
Abstract
1 Introduction
2 Graphene oxide/reduced graphene oxide hybrid nanocomposites in SERS sensing
3 SERS imaging
4 Summary
Acknowledgements
References
Chapter Eleven: Graphene-based matrix-assisted laser desorption/ionization mass spectrometry
Abstract
1 Introduction
2 MALDI-MS: principles and limitations
3 Carbon nanomaterials for LDI-MS
4 Graphene for LDI-MS
5 Extraction or separation using G-based nanomaterials
6 G-based materials for extraction or separation of small molecules
7 G-based materials for extraction or separation of small molecules
8 Conclusion
References
Chapter Twelve: Graphene oxide-based humidity sensors
Abstract
1 Introduction
2 Humidity sensor devices
3 Materials
4 Graphene oxide
5 Graphene oxide-based humidity sensors
6 Summary and prospective
References
Chapter Thirteen: Graphene oxide based gas sensors
Abstract
Abbreviations
1 Introduction
2 Importance of gas sensor
3 Mechanism of gas sensing using graphene oxide
4 Graphene oxide based gas sensors
5 Conclusions
Acknowledgement
References
Chapter Fourteen: Analytical applications of graphene oxide-based hydrogels
Abstract
1 Introduction
2 Synthesis of graphene oxide
3 Types of polymers for hydrogel preparation
4 Graphene oxide-based hydrogel synthesis/preparation method
5 Characterization of graphene oxide-based hydrogel
6 Properties and characteristic of graphene oxide-based hydrogel for various analytical applications
7 Analytical applications of graphene oxide based composite hydrogels
8 Conclusion remarks and future perspectives
References
Chapter Fifteen: Electrochemical synthesis of graphene oxide and its analytical applications
Graphical abstract
Abstract
1 Introduction
2 Graphene oxide precursor
3 Electrochemical reduction of GO synthesis
4 One-step method for electrochemical reduction
5 Two-step electrochemical reduction approach
6 Comparing chemically reduced graphene oxide (CRGO) with ERGO
7 Factors influencing the electrochemical synthesis process
8 Advantages and limitations of electrochemical synthesis
9 Benefits
10 Limitations
11 Characterisation techniques GO and ERGO
12 Characterization techniques
13 Electrochemical studies
14 Conclusion
References
Chapter Sixteen: Forensic applications of graphene oxide
Abstract
1 Introduction
2 GO as an electrochemical material for forensic analysis
3 Synthetic strategies of GO
4 Applications of GO in forensic analysis
5 Conclusion and future perspectives
References
Chapter Seventeen: Graphene oxide nanomaterials in separation science
Abstract
1 Introduction
2 GO membrane for separation of gas molecules
3 GO-based membranes and nanomaterials for separation of ionic and molecular species
4 GO-based membranes and nanomaterials for separation of biomolecules
5 Summary
Acknowledgments
References
Chapter Eighteen: Graphene oxide nanocomposites for the removal of inorganic species
Abstract
1 Introduction
2 Synthesis of graphene oxide for removal of inorganic contaminants
3 Plasma synthesis
4 Application of GO for removal of inorganic species
5 Graphene oxide-based ternary nanocomposites classification and host matrix selection for inorganic species
6 Graphene oxide functionalization with hybrid nanoscale composites for inorganic species
7 Graphene oxide with MOF nanocomposite for inorganic species
8 Effect of competing ions
9 Qualitative and quantitative analysis of removing inorganic species
10 Graphene with 3-D structures for inorganic species
11 Mechanism of GO- based composites for removal of inorganic species
12 Conclusion and future prospective
Acknowledgements
References
Chapter Nineteen: Graphene based nanocomposites as promising adsorbents for removal of organic pollutants
Abstract
1 Introduction
2 The factor contributes to organic contamination
3 Synthesis of graphene for removal of organic contaminants
4 Graphene for removal of organic contamination
5 Conclusion and future prospective
Acknowledgements
References
Chapter Twenty: Magnetic graphene oxide in analytical science
Abstract
1 Introduction
2 Importance of nanomaterials in analytical science
3 Preparation of graphene oxide (GO)
4 Synthesis methods for magnetic graphene oxide
5 Application of magnetic graphene oxide in analytical science
6 Conclusion and future prospective
References
Chapter Twenty One: Applications of graphene oxide in biomedical sciences
Abstract
1 Introduction
2 Graphene oxide for drug delivery
3 Graphene oxide for bio-sensing
4 Graphene oxide for antibacterial activity
5 Graphene oxide for bio-imaging
6 Graphene oxide for gene delivery
7 Graphene oxide for tissue engineering
8 Conclusion and future perspective
References
Chapter Twenty Two: Features of graphene oxide-based membranes for water purification
Abstract
Abbreviations
1 Introduction
2 Preparation of GO and GO based membranes
3 Characteristics of GO based membranes
4 Application of GO-based membranes in water purification
5 Conclusions and future scopes
References
Chapter Twenty Three: Applications of magnetic graphene oxide in water decontamination
Abstract
1 Introduction
2 Adsorption
3 Magnetic graphene oxide
4 Recent advances of magnetic graphene oxide in water decontamination
5 Conclusions
References
Chapter Twenty Four: A study on graphene oxide and its nanocomposites: preparation, properties and applications in water and wastewater treatment
Abstract
1 Overview of graphene oxide
2 Synthesis and properties of graphene oxide
3 Graphene oxide and its nanocomposites for water and wastewater treatment
4 Scope of work for water and wastewater treatment and challenges involved
References
Chapter Twenty Five: Prospective of graphene oxide based photothermal frameworks as interfacial water evaporator for clean water production
Abstract
1 Introduction
2 Criteria for selection of photothermal material
3 Fabrication of graphene derived photothermal frameworks
4 Strategies for efficient heat conversion property
5 Principal challenges influencing the dependable performance of solar evaporation
6 Applications of photothermal materials
7 Summary
References
Chapter Twenty Six: Photocatalytic applications of metal ion-doped graphene oxide
Graphical abstract
Abstract
1 Introduction
2 Synthesis of metal ion doped rGO
3 Characterization techniques
4 Photocatalytic performance of metal-ion doped rGO
5 Factors affecting photocatalytic performance (e.g. metal ion-doping concentration, light source, reaction conditions)
6 Mechanisms of metal ion doped rGO photocatalysis
7 Challenges and future directions
8 Conclusion
References
Index

Suresh Kumar Kailasa

Suresh Kumar Kailasa, FRSC, is an Associate Professor of the Department of Chemistry at Sardar Vallabhbhai National Institute of Technology (SVNIT) Surat, Gujrat, India. He obtained Master of Science in Chemistry of Natural Products from Sri Krishnadeveraya University, Andhra Pradesh, India and PhD in Chemistry from Sri Venkateswara University, Tirupati, Andhra Pradesh, India. After completing two Postdoctoral Fellowships at Chonbuk University, South Korea and at National Sun Yat-Sen University, Taiwan, he joined as an Assistant Professor at SVNIT, Surat in 2009. He received Young Scientist Award from Taiwan Mass Spectrometry Society in 2013. He was Visiting Research Professor (June 2022 – July 2022 & May 2019 – July 2019) and Research Professor (January 2018 – September 2018) at Department of Chemistry, Chung-Ang University, Seoul, South Korea. He worked as a Visiting Scientist at Department of Chemistry, National Sun Yat-sen University, Taiwan in 2010. He was selected as a Brain Pool Scientist at the Department of Chemistry, Chung-Ang University, South Korea under Korean Brain Pool Invitation Program of KOFST in 2017 and 2023. He was selected as a Fellow of Royal Society of Chemistry, The Royal Society of Chemistry, UK and Fellow of the Society of Pesticide Science India in 2019. He was also selected as a life member of the National Academy of Sciences, India (NASI), India in 2021. He acted as Guest Editor in the special issues in Applied Sciences (MDPI), Materials Today Chemistry, Inorganic Chemistry Communications (Elsevier) and Environmental Science and Pollution Research (Springer). He is acting as an Advisory Board Member, Sensors and Diagnostics (RSC Publications) since 2023. He is the author of 240 peer-reviewed papers and is the co-inventor of a Taiwan Patent. He has a h-index of 59 and has accumulated over 11163 citations. Recently, he has been featured in the top 2% scientists that has been compiled by Stanford University in the USA. His research interest in the field of analytical chemistry, MALDI-MS, ESI-MS, microextraction, nanosensors, drug delivery, surface modifications of nanostructure materials, functional nanomaterials for the development of new analytical strategies.

Affiliations and expertise

Department of Chemistry, Sardar Vallabhbhai National Institute of Technology (SVNIT) Surat, Gujrat, India and Nanochemistry, Analytical Chemistry, MALDI mass spectrometry

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Analytical Applications of Graphene Oxide

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