Description
MXenes as Emerging Modalities for Environmental and Sensing Applications: Theories, Design and Approach explores how MXene-based hybrid nanostructures are used to remedy environmental pollutants. The book also explains how they assist in sensing and degradation/removal applications to protect the ecological system, both environmental and aquatic life, from various types of toxic pollutants released from industrial sectors. This book focuses on the design, fabrication, and application of MXene-based nanostructures and their integration with the biotechnological processes for monitoring and treatment of pollutants in environmental matrices and sensing applications.It aims to increase scientific and technological awareness of the urgency required to tackle life-threatening pollutants arising from various industrial and biotechnological sectors of the modern world.- Provides advanced materials for mitigating environmental pollutants that collectively describe the entire aspects of environmental and material chemistry- Explains the use of MXenes and MXenes-based hybrid materials as advanced environmental remediation tools- Focuses on the most advanced industrial-scale materials for industry, including current challenges during manufacturing and applications- Offers up-to-date reference materials, including websites of interest and information about the latest research
Table of Contents
Part 1: BASICS and FUNDAMENTALS1. MXenes: Fundamental, Properties, Classification and Application2. MXenes and Hydride Nanostructures: Fundamental, Properties, Surface Modification, Properties and Application3. Detection and Purification of Toxic Materials: Past and Present Advancements and Role of MXenesPart 2: MXENES IN ENVIRONMENTAL APPLICATION4. Theories of Identification and control of Environmental Toxic Materials: Chronological Growth and MXenes as Ideal Substitute5. MXene as a Solution to Clean Ecosystem in a Sustainable Way6. MXene-based hybrid Nanostructures for Detection and Purification of Toxic Gases7. MXene-based hybrid Nanostructures for Detection and Purification of Heavy Metals8. MXene-based hybrid Nanostructures for Detection and Purification of Toxic Ions and Radionuclides9. MXene-based hybrid Nanostructures for Detection and Purification of Organic and Inorganic Pollutants10. MXene-based hybrid Nanostructures for Detection and Purification of Pharmaceutics and Personal Care Products11. MXene-based hybrid Nanostructures for Detection and Purification Dyes and PesticidesPart 3: MXENES IN SENSING APPLICATION12. MXene-based hybrid nanostructures for Sensing Application: Fundamental, and State-of-Art13. MXenes-based hybrid for Electrochemical Sensing Application14. MXenes-based hybrid for Optical Sensing Application15. MXene-based hybrid for Biosensing Application16. MXene-based hybrid nanostructures for Strain and Flexible Sensing Applications17. MXene-based hybrid nanostructures for Analytical Application18. Challenges and future prospective of MXenes and MXene-based hybrid nanostructures
