An edition of Graphene-Based Electrochemical Sensors for Toxic Chemicals
(2020)
Graphene-Based Electrochemical Sensors for Toxic Chemicals
by Alagarsamy Pandikumar and Perumal Rameshkumar
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The book presents recent progress on relevant topics: Toxicity of chemicals, importance of electrochemical sensors, different types of graphene-based nanomaterials, Neurotoxins and electroanalytical detection of toxic chemicals.
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| Edition | Availability |
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1
Graphene-Based Electrochemical Sensors for Toxic Chemicals
2020, Materials Research Forum LLC
in English
1644900955 9781644900956
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Book Details
Table of Contents
Intro
front-matter
Table of Contents
Preface
1
Graphene Modified Electrochemical Sensors for Toxic Chemicals
1. Introduction
2. Overview on graphene
3. Application
4. Fundamental electrochemistry of graphene
5. Pertinent applications
6. Sensing applications
7. Direct electro-catalysis
Conclusions
Reference
2
Functionalized Graphene Modified Electrochemical Sensors for Toxic Chemicals
1. Introduction
2. Toxic chemicals and types
3. Electrochemical sensors: Characteristics features and types
4. Brief history of development of electrochemical sensors
5. Electrochemical sensors for toxic chemicals
6. Nanotechnology for development of electrochemical sensing platforms
7. Functionalization of graphene for development of sensors
8. Graphene and functionalized graphene based electrochemical sensors
9. Engineering functionalized graphene based electrochemical sensors for toxic chemicals
10. Market trend for the development of electrochemical sensors
11. Future perspective
Conclusion
Acknowledgement
References
3
Heteroatom-Doped Graphene-Based Electrochemical Sensors for Toxic Chemicals
1. Introduction
1.2 Graphene
1.2.1 Oxidation of graphite to graphene oxide
1.3 Influence of dopants on graphene
1.3.1 Synthesis of heteroatom doped graphene
2. Elemental doping of Boron
3. Elemental doping of Nitrogen
3.1 In situ doping
3.2 Post-treatment
4. Elemental doping of sulfur
5. Elemental doping of Phosphorus
6. Elemental doping of halogen
7. Co-doping
8. Basic electrochemistry of H-graphene
9. Electrochemical biosensors
10. Nitrobenzene (NB)
11. Organo pesticides
12. Para-Nitrophenol
13. Future perspectives
References
4
Graphene-Metal Modified Electrochemical Sensors for Toxic Chemicals
1. Preamble
2. Hybridisation of graphene
metal
2.1 Graphene
gold
2.2 Graphene
titanium
2.3 Graphene
ferrous nanoparticle
2.4 Graphene
copper
2.5 Graphene
palladium
2.6 Graphene- nickel
2.7 Selectivity of hybridized graphene for electrochemical sensors
3. Sensing application of toxic chemicals
3.1 Ions of heavy metals
3.2 Phenolic compounds
3.3 Emerging contaminants
3.4 Other toxic chemicals
Conclusion and future perspective
References
5
Graphene-Metal Oxides Modified Electrochemical Sensors for Toxic Chemicals
1. Introduction
2. Electrochemical methods of determination of toxins
2.1 Heavy metal ions
2.2 Hydrogen peroxide
2.2 Cyanide
2.3 Phenolic compounds
2.4 Hydrazine
2.5 Agrochemicals
2.6 Aromatic nitro compounds
Conclusion and the upcoming perspective
References
6
Graphene-Metal Chalcogenide based Electrochemical Sensors for Toxic Chemicals
1. Introduction
Edition Notes
- Environmental pollutants and toxic chemicals
Classifications
External Links
The Physical Object
ID Numbers
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History
- Created December 11, 2022
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