Photochemical Splitting of Water

Photochemical Splitting of Water by Soney C. George is an authoritative, accessible guide that brings the promise of solar-driven hydrogen production into clear focus. Whether you are a researcher in materials science, a graduate student in chemical engineering, or a policy maker exploring clean-energy solutions, this book offers a compact, high-value pathway from fundamentals to frontier research.

Begin with a crisp overview of the physical chemistry behind photochemical water splitting—light–matter interactions, charge separation, and reaction kinetics—then move into practical discussion of photocatalysts, semiconductor design, and surface engineering. The author balances theory and application, presenting experimental strategies, comparative analyses of catalyst systems, and real-world performance metrics that matter to labs across North America, Europe, and the Asia-Pacific region.

Readers will appreciate clear schematics, critical evaluations of current technologies, and forward-looking perspectives on scaling solar hydrogen for industrial and decentralized use. The narrative highlights environmental benefits, techno-economic considerations, and how photochemical approaches fit within broader renewable-energy strategies.

This concise yet comprehensive volume is ideal for anyone seeking a grounded, actionable understanding of photochemical water splitting. It equips you to evaluate new research, design experiments, or inform energy policy with confidence. Add Photochemical Splitting of Water by Soney C. George to your library and stay at the forefront of solar fuels and hydrogen innovation—an essential resource for the global clean-energy community.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.