Description
Single Atom Catalysts: Design, Synthesis, Characterization, and Applications in Energy focuses on the synthesis, design and advanced characterization techniques for single atom catalyst materials and their direct energy conversion and storage applications. This book reviews emerging applications of single atom catalysts in fuel cells, batteries, water splitting, carbon dioxide reduction, and nitrogen fixation. Both noble metal and non-noble metal single atom catalysts (SACs) are discussed as noble metal-based SACs are highly efficient and non-noble metal-based SACs might have lower associated costs. There is an emphasis on materials design focused on improving performance of catalysts based on overall catalytic activity, selectivity and stability.Specific parameters that impact this performance are emphasized throughout the book, including single metal atom stabilization, metal-support interactions and the coordination environment.- Discusses the different intricate design and synthesis methods pertaining to various noble and non-noble metal-based SACs- Provides in-depth understanding about the structural, morphological, and physicochemical characterization techniques of synthesized SACs with data analysis and interpretation- Describes state-of-the-art applications of SACs in renewable energy generation and their conversion, storage, and associated challenges
Table of Contents
1. Introduction to single-atom catalysts2. Synthesis techniques for single-atom catalysts3. Characterization techniques for single-atom catalysts4. Single-atom catalysts for electrocatalytic oxygen reduction5. Single-atom catalysts for electrocatalytic oxygen evolution reaction6. Single atom catalysts for electrocatalytic hydrogen evolution reaction7. Single-atom catalysts for electrocatalytic carbon dioxide reduction8. In situ/operando X-ray absorption spectroscopy in small molecule-based electrocatalysis9. Single-atom catalyst for Li-S batteries10. Conclusion and outlooks
