MXenes : fundamentals and applications /

This is the very first book on the highly promising topic of MXenes; focusing on their fundamental characteristics and properties, fabrication techniques and applications. Keywords: MXenes, Nanomaterials, Two-dimensional Materials, Transition Metal Carbides, Transition Metal Nitrides, Electrical Con...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Inamuddin, 1980- (Editor ), Boddula, Rajender (Editor ), Asiri, Abdullah M. (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Millersville, PA : Materials Research Forum LLC, [2019]
Colección:Materials research foundations ; v. 51.
Temas:
Transition metal carbides.
Carbides.
Materials science.
Carbures de métaux de transition.
Carbures.
Science des matériaux.
Transition metal carbides
Carbides
Materials science
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Intro; front-matter; Table of Contents; Preface; 1; MXenes for Sensors; 1. Introduction; 2. Synthesis of MXenes; 3. MXenes for sensing applications; 3.1 Electronic sensors; 3.2 Biosensing; 4. Characterization; 5. Final Remarks; Acknowledgements; References; 2; A Newly Emerging MXene Nanomaterial for Environmental Applications; 1. Introduction; 2. Physiochemical properties of MXenes nanomaterials; 2.1 Crystal structure; 2.1.2 Surface chemical structure; 2.1.3 Band gap structure; 2.2 Synthesis of MXenes nanomaterials; 3. MXenes for environmental application; 3.1 Adsorption
  • 3.1.1 Adsorption of organic pollutants3.1.2 Adsorption of inorganic pollutants; 3.1.3 Adsorption of gaseous pollutants; 3.1.4 Adsorption of other pollutants; 3.2 Photocatalysis; 3.3 Antimicrobial activity; 3.4 Membrane filtration; Conclusion and remarks; Acknowledgments; References; 3; Two-Dimensional MXene as a Promising Material for Hydrogen Storage; 1. Introduction; 2. Family of Mxenes; 3. Structural properties of Mxenes; 4. Preparation of Mxenes; 5. Mxenes for hydrogen storage; 6. Computational and theoretical study on hydrogen storage over MXenes; 7. Experimental study of Mxenes
  • ConclusionAcknowledgments; References; 4; MXenes for Electrocatalysis; 1. Introduction; 2. MXenes forHER; 2.1 The mechanism of HER; 2.2 MXene-based catalysts for HER; 3. MXene for OER; 3.1 The mechanism of OER; 3.2 MXene-based catalysts for OER; 4. MXene for NRR; 4.1 The mechanism of NRR; 4.2 MXene-based catalysts for NRR; Conclusion and outlook; References; 5; MXenes Composites; 1. Introduction; 2. Significance of MXenes composites; 3. MAX phases in MXenes; 4. Processing of MXene composites; 4.1 Synthesis of MXenes; 4.2 Surface modifications; 5. Structural and mechanical properties
  • 6. Electronic properties7. Surface state properties; 8. Transport and optical properties; 9. Magnetic properties; 10. Applications of MXenes in different fields; 10.1 Low work function emitters; 10.2 Catalysts and photocatalysts for hydrogen evolution; 10.3 Energy conversion for thermoelectric devices; 10.4 Energy storage; 10.5 Biomedical applications; Conclusions; References; 6; MXenes for Supercapacitors; 1. Introduction; 2. Supercapacitor background; 3. Synthesis approaches; 3.1 MXene; 3.2 Element doped MXenes; 3.3 MXene-based nanocomposites; 3.4 MXene quantum dots
  • 4. Structures, properties and supercapacitor applications4.1 Single/few-layered MXene-based supercapacitors; 4.2 Element doped MXenes; 4.3 MXene composites-based supercapacitors; Summary and outlook; References; 7; MXenes for Sodium-Ion Batteries; 1. Introduction; 2. Na-ion batteries; 3. Summary; References; 8; MXenes for Biomedical Applications; 1. Introduction; 2. MXenes as antibacterial agent; 3. MXenes as biosensors; 4. MXenes in bio-imaging; 5. Therapeutic applications of MXenes; Discussion; References; 9; MXene and its Sensing Applications; 1. Introduction; 2. MXenes based sensors

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