MXenes as surface-active advanced materials : from fundamentals to industrial and biomedical applications /
This book explores the multifaceted applications and properties of MXenes, a class of two-dimensional materials, from their fundamental properties to their uses in industrial and biomedical fields. Edited by experts in materials science and engineering, the book provides comprehensive coverage of MX...
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| Format: | eBook |
| Language: | English |
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London, United Kingdom ; Cambridge, MA :
Elsevier,
2024.
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| Series: | Micro & nano technologies.
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| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- Front Cover
- MXenes as Surface-Active Advanced Materials
- Copyright Page
- Contents
- List of contributors
- About the editors
- Preface
- I. MXenes: basics, surface/interface chemistry properties
- 1 MXenes: fundamental, properties, and classifications
- 1.1 Introduction
- 1.2 The rise of MXenes
- 1.3 Structure
- 1.3.1 Mono transition metal MXenes
- 1.3.2 Double transition metal MXenes
- 1.3.3 Divacancy MXenes
- 1.4 Property of MXenes
- 1.4.1 Structural properties
- 1.4.2 Electrical and optical properties
- 1.4.3 Heat endurance
- 1.4.4 Mechanical properties
- 1.4.5 Magnetic performance
- 1.4.6 Topological properties
- 1.4.7 Thermal properties
- 1.4.8 Optical properties
- 1.5 Property of titanium carbide MXene
- 1.6 Impacts of MXene modification on its properties
- 1.6.1 Effects of surface modification on MXene properties
- 1.6.2 Impact factors on the catalytic performance of MXene
- 1.6.3 Impact factors on the energy storage and conversion properties
- 1.6.4 Impact factors on microwave absorbing properties
- 1.6.5 Impact factors on adsorption properties
- 1.7 MXene-based composites
- 1.7.1 Fabrication of MXene composites
- 1.7.1.1 Hydrothermal/solvothermal synthesis
- 1.7.1.2 Deposition methods
- 1.7.1.3 Solution processing
- 1.7.1.4 Drop casting and adsorption
- 1.7.1.5 Hot press technique
- 1.7.1.6 In situ polymerization blending
- 1.7.2 MXene/polymer composite
- 1.7.3 MXene/metals/ceramics composite
- 1.7.4 MXene/carbon composites
- 1.7.5 MXene-based hydrogels
- 1.8 Classification of MXenes
- 1.8.1 MXene-conducting polymers
- 1.8.2 MXene-ionic liquid
- 1.8.3 MXene-perylenediimide
- 1.8.4 MXene metal organic framework
- 1.8.5 MXene 0D materials
- 1.8.6 MXene 1D materials
- 1.8.7 MXene 2D materials
- 1.9 Challenges of MXenes
- 1.10 Crystalline MAX phases and their 2D derivative MXenes
- 1.11 Exfoliation of MAX phases to MXenes
- 1.12 Conclusions
- Acknowledgments
- Notes
- Authors contribution
- References
- 2 MXenes synthesis and characterization
- 2.1 What is MXene
- 2.2 Brief history
- 2.3 Structure of MXene
- 2.4 Synthesis of MXene
- 2.5 Strategies of MXene synthesis
- 2.5.1 Top-down approach
- 2.5.2 Etching with fluoride salts
- 2.5.3 Etching with ammonium hydrofluoride
- 2.5.4 Reaction with alkali
- 2.5.5 Reaction with molten fluoride salts
- 2.6 In-situ electrochemical synthesis
- 2.7 Urea glass route
- 2.8 Bottom-up approach
- 2.8.1 Chemical vapor deposition
- 2.9 Exfoliation
- 2.10 An overview of MXenes applicants (in drug delivery)
- 2.10.1 MXene quantum dots
- 2.11 Biomedicine
- 2.12 Photothermal treatment
- 2.13 Antibacterial function
- 2.14 Conclusion and outlooks
- References
- 3 Metal-MXenes interaction: adsorption, bonding, and role of delocalized chemical bonding
- 3.1 Introduction
- 3.2 Applications of MXenes
- 3.3 Bonding in MXenes
- 3.4 Metal-MXene interaction