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Full Description
Advanced hydrogen energy materials, electrochemical cells, and commercialization pathways in one reference
Bridging laboratory-scale catalyst development and industrial-scale membrane electrode assembly manufacturing remains a central challenge in hydrogen energy research. Hydrogen Production, Storage, and Utilization: From Materials to Systems Design and Commercialization, edited by Siyu Ye, a Fellow of the Canadian Academy of Engineering, provides a rigorous treatment of advanced materials for HOR, HER, ORR, and OER reactions alongside electrochemical cell design for both low-temperature and high-temperature operation.
The book reviews fundamentals, current bottlenecks, and future perspectives for key electrocatalytic materials used in fuel cells and water electrolysis. It details state-of-the-art characterization methods including synchrotron radiation and in-situ FTIR, examines artificial intelligence applications in materials and device development, and analyzes industrial production data to map commercialization progress in large-scale membrane electrode assembly manufacturing.
Readers will also find:
Systematic coverage of catalyst layer and MEA design principles for protonic exchange membrane fuel cells and electrolysis cells
Detailed analysis of research advancements, technical bottlenecks, and remaining challenges across hydrogen energy material classes
State-of-the-art characterization techniques including synchrotron radiation and in-situ FTIR applied to hydrogen energy systems
Exploration of artificial intelligence methods accelerating the discovery and optimization of electrocatalytic materials and devices
Industrial production data analysis presenting current developments in large-scale commercialization of hydrogen energy technologies
Materials scientists, electrochemists, solid state chemists, and physical chemists will find this reference directly applicable to their research and development work. By connecting electrocatalyst fundamentals with systems-level design and commercialization data, the book serves as a critical resource for advancing hydrogen energy technologies from the laboratory to industrial deployment.
Contents
1. Production and application of hydrogen and oxygen
2. Storage technology of hydrogen energy
3. Advanced materials for hydrogen evolution reaction
4. Advanced materials for hydrogen oxidation reaction
5. Advanced materials for oxygen reduction reaction
6. Advanced materials for oxygen evolution reaction
7. Advances and challenges in PEMFC/WC
8. Advances and challenges in P-SOFC/EC
9. Advances and challenges in O-SOFC/EC
10. Advanced characterization techniques in hydrogen energy research
11. Machine learning guided research and development of key materials for water electrolysis and fuel cells
12. Large scale manufacturing of membrane electrode assembly
13. Applications of water electrolysis and fuel cells: thermal and power generation
