MXene-Based Hybrid Nano-Architectures for Environmental Remediation and Sensor Applications: From Design to Applications

MXene-Based Hybrid Nano-Architectures for Environmental Remediation and Sensor Applications: From Design to Applications brings together the state-of-the-art in molecular design, synthetic approaches, unique properties, and applications of MXene-based hybrid nanomaterials, which combine 2D MXenes with low dimensional materials and open the door to novel solutions in environmental remediation, sensing, and other areas. The book covers synthesis methods, structural design, basic properties, and characterization techniques and provides in-depth coverage of specific areas of environmental remediation and removal, covering gases, toxic heavy metals, organic pollutants, pharmaceuticals, organic dyes, pesticides, and inorganic pollutants. Other sections delve into targeted sensing applications, including electrochemical sensors, optical sensors, biosensors, and strain sensors. The final chapters consider other application areas for MXene-based hybrid nano-architectures, such as wearable devices and thermal energy storage, and address the other key considerations of secondary environmental contamination, toxicity, regeneration and re-use of MXenes, and future opportunities. Covers fundamentals of MXene-based hybrid nanostructures, including synthesis and characterization methodsExplores innovative and emerging applications, with a focus on environmental remediation and sensorsAddresses challenges, such as environmental impact and lifecycle, as well as future possibilities INDICE: Section 1: MXenes in environmental applications1. MXene-based hybrid nanoarchitectures: an introduction2. Synthesis of element-doped MXenes and MXene-based hybrid nanomaterials3. MXene-based hybrid nanomaterials for sequestration of radionuclides and toxic ions4. MXene-based hybrid nanomaterials for efficient removal of toxic heavy metals5. MXene-based nanomaterials for anticorrosion applications6. MXene-based nanomaterials to remove toxic heavy metals7. MXene-based hybrid nanomaterials for the removal of pharmaceutical-based pollutants8. MXene-based hybrid nanomaterials in photocatalysis9. MXene-based hybrid nanomaterials to remove toxic metals10. MXenes for removal of pharmaceutical compounds from wastewater11. MXenes for CO2 reduction: a promising choice12. Removal of inorganic pollutants using MXene-based hybrid nanomaterialsSection 2: Mxenes in sensing applications13. MXenes for sensors14. MXenes based hybrid electrochemical sensors for cancer diagnostics15. MXene-based hybrid nanomaterials for gas sensing applications16. MXene-based hybrid biosensors17. MXene-based electrochemical sensors18. MXene-based hybrid nanostructures for strain sensors19. Mxenes-based hybrid electrochemical sensorsSection 3: Mxenes in energy application20. MXene for green energy: an introduction21. MXene-based electrodes for hybrid supercapacitor devices22. MXene-based hybrid nanomaterials for nitrogen reduction reaction23. Challenges and future prospects of MXenes

• ISBN: 978-0-323-95515-7
• Editorial: Elsevier
• Encuadernacion: Rústica
• Páginas: 554
• Fecha Publicación: 19/01/2024
• Nº Volúmenes: 1
• Idioma: