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Graphene extraction from waste : a sustainable synthesis approach for graphene and its derivatives /

Graphene Extraction from Waste: A Sustainable Synthesis Approach for Graphene and its Derivatives introduces readers to strategies of graphene extraction from waste, an important advance in graphene material development to support the low-cost and large-scale production of this valuable material. Th...

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Bibliographic Details
Corporate Author: ScienceDirect (Online service)
Other Authors: Hussain, Chaudhery Mustansar (Editor), Srivastav, Ajeet Kumar (Editor), Tiwary, Chandra Sekhar (Editor), Tour, James M. (Editor)
Format: eBook
Language:English
Published: Cambridge : Woodhead Publishing, 2023.
Series:Woodhead Publishing series in electronic and optical materials.
Subjects:
Graphene.
Graphène.
Graphene
Electronic books.
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • Intro
  • Title page
  • Table of Contents
  • Copyright
  • List of contributors
  • Foreword
  • Introduction
  • Chapter 1. Upcycling the solid wastes as precursors for graphene production
  • 1.1. Introduction
  • 1.2. Graphene-based materials
  • 1.3. Graphene manufacturing
  • 1.4. Methods of characterization of graphene
  • 1.5. MSW components as feedstock for graphene synthesis
  • 1.6. Applications of graphene materials obtained from upcycled waste
  • 1.7. Challenges and scope for future studies
  • 1.8. Conclusion
  • Chapter 2. Potential industrial waste materials for graphene extraction
  • 2.1. Introduction
  • 2.2. Industrial wastes as graphene precursors
  • 2.3. Production of graphite from carbochemical and petrochemical by-products and residues
  • 2.4. Methodologies for the production of graphene and related materials from graphite
  • 2.5. Conclusions
  • Chapter 3. Synthesis of graphene from waste plastic and its applications
  • 3.1. Introduction
  • 3.2. Solid waste and its conversion into graphene and graphene derivative
  • 3.3. Applications of waste plastics-derived graphene
  • 3.4. Challenges in the field
  • 3.5. Conclusion and future prospective
  • Chapter 4. Green sustainable approach toward plastic waste upcycling to graphene-based nanomaterials
  • 4.1. Introduction
  • 4.2. Graphene a 2D wonder material
  • 4.3. Plastic waste
  • 4.4. Plastic waste upcycling to graphene
  • 4.5. Summary and future prospects
  • Chapter 5. Classification of waste plastics for dimension-controlled graphene growth on natural mineral substrates in terms of polymer processing and thermal techniques
  • 5.1. Introduction
  • 5.2. Thermal treatment techniques for plastic recovery
  • 5.3. Carbon sources from the plastic industry for graphene growth by upcycling
  • 5.4. Natural/mineral fillers as substrates for graphene growth.
  • 5.5. Future circularity enhancements and outlook
  • 5.6. Conclusions
  • Chapter 6. Graphene extraction from the battery waste
  • 6.1. Introduction
  • 6.2. Graphene: significance and methods of preparation
  • 6.3. Graphene from the various waste battery sources
  • 6.4. Summary
  • Chapter 7. Challenges of synthesizing graphene-like and graphitic structures from biomass-based lignocellulosic wastes and its applications
  • 7.1. Introduction
  • 7.2. Pretreatment of lignocellulose
  • 7.3. Synthesis of graphene-like structures from biomass side streams
  • 7.4. Characterization of graphene-like materials
  • 7.5. Applications of graphene-like materials
  • Chapter 8. Agricultural waste-derived graphene and its derivatives: opening the way for a sustainable environment
  • 8.1. Introduction
  • 8.2. Sources of various agricultural wastes
  • 8.3. Different methods for synthesis of agricultural-waste-derived graphene
  • 8.4. Properties and characterization
  • 8.5. Applications
  • Chapter 9. Progress of research on the sustainable preparation of graphene and its derivatives
  • 9.1. Introduction
  • 9.2. Green synthesis of graphene oxide
  • 9.3. Green synthesis of graphene
  • 9.4. Graphene quantum dots
  • 9.5. Doped graphene and derivates
  • Chapter 10. Green synthesis of graphene and its derivatives
  • 10.1. Introduction
  • 10.2. Synthesis of graphene
  • 10.3. Synthesis of polymer-graphene composite
  • 10.4. Environmental impact, challenges, and future directions
  • Chapter 11. Challenges and opportunities for the graphene industry. Sustainable approaches for the circular economy
  • 11.1. Introduction
  • 11.2. Graphene: properties and synthesis methods
  • 11.3. Materials and method
  • 11.4. Results and discussions
  • 11.5. Conclusions
  • Chapter 12. Commercialization and economic of graphene from waste
  • 12.1. Introduction
  • 12.2. Economic issues involving graphene.
  • 12.3. Use of graphene waste
  • 12.4. Final consideration
  • Chapter 13. The effective utilization of different types of wastes to produce graphene and graphene analogs: applications, innovations, and challenges with special emphasis on agricultural waste
  • 13.1. Introduction
  • 13.2. Preparation of graphene and graphene analogs from agricultural waste
  • 13.3. Application of agricultural-waste-derived graphene and graphene analogs
  • 13.4. Challenges in synthesis and application of graphene and graphene analogs from agricultural waste
  • 13.5. Conclusions and outlook
  • Index.