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Full Description
Handbook of Perovskites: Chemistry, Synthesis, and Applications offers a thorough examination of the complex world of perovskite materials, emphasizing their fundamental chemistry and a variety of practical uses. The handbook explores the synthesis techniques, structural attributes, and distinctive features of perovskite materials to close the knowledge gap between theory and real-world applications. It expounds upon the fundamental chemical concepts, processes, and mechanisms behind perovskite oxides, halides, chalcogenides, nanostructures, and doped perovskites.
• Provides readers with a strong foundation in perovskite chemistry by carefully examining reactions and processes, closing the gap between basic ideas and real-life applications.
• Explores synthesis, structural attributes, and distinctive features of perovskite materials.
• Details classification, reactivity, and applications depending on cations and anions.
• Describes nanosized perovskites and doped perovskites.
• Highlights the wide range of perovskite applications in many industries, such as electronics, optoelectronics, catalysis, energy storage, and solar cells.
• Covers limitations as well as opportunities for synthesis and applications.
An essential resource exploring the nuances and potential of perovskite materials in a variety of fields, this handbook will be of interest to researchers and advanced students working in the domains of chemistry, materials science and engineering, nanotechnology, energy, and the environment.
Contents
0. Front Matter 1. Description of Perovskites: Classifications, Structural, Optical, Electronic, and Magnetic Properties 2. Perovskites Earth-Existence, Environmental and Economic Significance 3. Metal Perovskite Oxides and Composites: Synthesis, Properties, Chemistry, and Applications 4. Metal Perovskite Sulphides and Composites: Properties, Synthesis, Chemistry, and Applications 5. Perovskite Selenides and Composites: Synthesis, Properties, Chemistry and Applications 6. Organic-Inorganic Perovskite Fluorides and Composites: Synthesis, Properties, Chemistry, and Applications 7. Organic-Inorganic Perovskite Chlorides and Composites: Synthesis, Properties, Chemistry, and Applications 8. Structural and Chemical Fundamentals of Organic-Inorganic Perovskite Bromides 9. Organic-Inorganic Perovskite Iodides and Composites, Synthesis, Properties, Chemistry, And Applications 10. Metal Perovskite Halides (Fluoride, Chloride, Bromide, and Iodide) and Their Composites: Synthesis, Properties, Chemistry, and Applications 11. The Role of Additives and Dopants in Bromide-based Perovskites for Multipurpose Applications 12. Halide Perovskites and Composites: Synthesis, Properties, And Applications in Nanogenerators 13. Metal Halide Perovskites: Prospects in Solar Cell Applications 14. Perovskite Quantum Dots, Synthesis, Properties, Chemistry, and Applications 15. Perovskite Nanoparticles, Synthesis, Properties, Chemistry, and Applications 16. Perovskite Nanocrystals Synthesized via Supersaturated Recrystallization at Room Temperature 17. Sustainable Perovskite Thin Films: From Material Chemistry to Sustainable High-Performance Devices 18. Doped Perovskites: Synthesis, Properties, Chemistry and Applications 19. Computational Modelling of Defects and Transports in Perovskite Oxides 20. Computational Modelling of Defects and Transport in Perovskite Nanostructures 21. Perovskites: Present Limitations and Perspectives 22. Design and Development of Perovskite Materials Using Machine Learning Techniques
