Description
Solar-Driven Green Hydrogen Generation and Storage presents the latest research and technologies in hydrogen generation through solar energy. With in-depth coverage of three key topics, the book discusses green hydrogen technologies, solid hydrogen storage, and hydrogen energy applications. The book begins with a deep dive into photoelectrochemical water splitting, examining different catalysts, such as perovskite-based, phosphorene-based, polymer-based, transition metal-based single atom, blue-titania, carbon-based, Mxene and semiconductor-based catalysts. Subsequent chapters analyze hydrogen production techniques, including electrolysis, photobiological, thermochemical, and biomass gasification methods. After reviewing key hydrogen storage technologies, the book concludes with a summary of the applications of hydrogen in various industry sectors. This book is an essential resource for students, researchers, and engineers interested in renewable energy, hydrogen production, and energy storage.- Presents the latest advances in hydrogen generation through solar energy- Focuses on three key themes—green hydrogen technologies, solid hydrogen storage, and applications of hydrogen energy- Considers the major challenges for the hydrogen economy worldwide
Table of Contents
1. Exploring the hydrogen evolution reaction (HER) side of perovskite-based materials during photoelectrochemical water splitting2. Phosphorene-based functional nanomaterials for photoelectrochemical water splitting3. Polymer-based catalyst for photoelectrochemical water splitting4. Transition metal-based single-atom catalyst for photoelectrochemical water splitting5. Clathrate hydrate as a potential medium for hydrogen storage application6. Advanced carbon-based nanomaterials for photoelectrochemical water splitting7. MXene-transition metal compound sulfide and phosphide hetero-nanostructures for photoelectrochemical water splitting8. Design and advances of semiconductors for photoelectrochemical water-splitting9. Dye-sensitized photoelectrochemical cells in water splitting10. Photobiological hydrogen production: Introduction and fundamental concept11. Biological hydrogen production driven by photo-fermentation processes12. Photobiological hydrogen production by microorganisms13. Photobiological production of hydrogen from biomass14. Challenges in scaling low-carbon hydrogen production in Europe15. Photobioreactor for hydrogen production16. Thermochemical hydrogen production17. Hydrogen production driven by nuclear energy18. Hydrogen production driven by seawater electrolysis19. Prospects and challenges for the green hydrogen market20. Hydrogen production from biomass gasification21. Approach toward economical hydrogen storage22. Power-paste hydrogen storage technologies23. Advanced nanomaterials for hydrogen storage24. Application of hydrogen in various sectors25. Application of machine learning approach for green hydrogen
