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Full Description
This book explores titanium-based MXenes, an emergent class of materials with a broad range of properties and potential applications. It introduces 3D MXene assemblies and compares their properties with such other well-known two-dimensional materials as graphene and transition metal dichalcogenides.
Features:
Focuses on emerging 2D titanium-based MXene (Ti3C2Tx and Ti2CTx) materials
Offers detailed synthetic strategies and scalable approaches
Covers defect engineering and physical properties
Compares the uniqueness of 2D titanium-based MXene with other 2D-layered materials
Discusses 3D macrostructure of titanium-based MXenes and their practical application in photodetectors, catalysis energy storage devices, and biomedicines
The first comprehensive book on the subject, this work is aimed at researchers in materials and electrical engineering and related disciplines.
Contents
Chapter 1 An Overview of 2D Titanium-Based MXenes
Chapter 2 Morphological Engineering of 2D Titanium-Based MXene
Chapter 3 Defect Engineering/Physical Properties of Titanium-Based MXene
Chapter 4 Application of Titanium-Based MXenes in Sensing, Photovoltaics, Catalysis, Energy Storage Devices, and Biomedicines
Chapter 5 Composite Structures of 2D Titanium-Based MXenes with Polymers
Chapter 6 Mixed-Dimensional Heterostructures of Titanium-Based MXene with other 2D Layered Materials
Chapter 7 Mixed-Dimensional Titanium-Based MXene Heterostructures in Supercapacitors and Batteries-Based Energy Storage Network
Chapter 8 Mixed-Dimensional Titanium-Based Structures in Photovoltaics and Catalysis
Chapter 9 Preparation of 3D Assemblies/Structures of Titanium-Based MXenes
Chapter 10 Application of 3D Assemblies/Structures of Titanium-Based MXenes in Sensing, Photovoltaics, and Catalysis
Chapter 11 Summary and Future Directions
