Metallic Glasses and Their Oxidation
Wang, Xinyun
Zhang, Songmao
Korotcenkov, Ghenadii
Metallic Glasses and Their Oxidation provides a comprehensive review of the structures, properties, preparations, processing and applications of metallic glasses. Special attention is paid to the oxidation behaviors and related mechanisms of metallic glasses that occur during their preparation, processing and application. The book's authors introduce basic knowledge of metallic glasses, including their structures, properties, processing techniques and applications. Then, the theories and techniques commonly used in oxidation investigation are highlighted, including thermal oxidation, native oxidation, stressed oxidation, powder oxidation and oxidation simulation. The book closes with the influence of oxidation on the structures and performances of metallic glasses, proposes measures to control oxidation, and discusses how to take advantage of oxidation to reinforce materials or create new materials. Introduces the latest knowledge on the structures, properties, preparation, processing and application of metallic glasses Reviews the fundamental concepts surrounding metal oxidation, including techniques, devices and methods frequently used in oxidation research Discusses measures to control oxidation and the possibilities of using oxidation to reinforce metallic glasses or create new types of materials INDICE: Section 1 Introduction to metal oxide-based electrocatalysis 1. Introduction to water splitting technologies 2. The fundamentals of metal oxides for electrocatalytic water splitting 3. Features of design and fabrication of metal oxide-based electrocatalysts 4. Noble metal oxide based electrodes interfaces design for application in water splitting Section 2 Transition metal oxides and their prospects for application in water splitting 5. Structure and basic properties of transition metal oxides designed for application in water splitting 6. Defect engineering for modifying transition metal oxides 7. Interfaces joining for modifying transition metal oxides 8. Doping engineering toward metal oxides for water splitting Section 3 Other Approaches to developing electrocatalysts for water splitting 9. Layered hydroxides as electrocatalysts for water splitting 10. Metal oxy compounds heterogeneous interfaces joining for water splitting 11. Metal phosphide based electrocatalysts for water splitting 12. Metal-organic framework (MOF)-derived electrocatalysts for water splitting 13. In-situ characterizations for application in water splitting 14. Summary and outlook
- ISBN: 978-0-323-90997-6
- Editorial: Elsevier
- Encuadernacion: Rústica
- Páginas: 415
- Fecha Publicación: 01/10/2022
- Nº Volúmenes: 1
- Idioma: Inglés