02656oam 2200541I 450 991016278970332120240505192156.01-5231-1372-31-315-27965-71-315-27964-91-315-27963-010.1201/9781315279657 (CKB)3710000001042686(MiAaPQ)EBC4793205(OCoLC)970693676(EXLCZ)99371000000104268620180331h20172017 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierPhotochemical water splitting materials and applications /Neelu Chouhan, Ru-Shi Liu, Jiujun Zhang1st ed.Boca Raton :CRC Press,[2017]©20171 online resource (379 pages) illustrations (some color)Electrochemical Energy Storage and Conversion0-367-86991-8 1-4822-3759-8 Includes bibliographical references at the end of each chapters and index.Chapter 1. Introduction to hyrdrogen as a green fuel -- Chapter 2. Concepts in photochemical water splitting -- Chapter 3. Water-splitting technologies for hydrogen generation -- Chapter 4. Electrochemical water splitting -- Chapter 5. Oxide semiconductors (ZnO, TiO2, Fe2O3, WO3, et cetera) as photocatalysts for water splitting -- Chapter 6. Fundamental understanding of the photocatalytic mechanisms -- Chapter 7. Nanostructured semiconducting materials for water splitting.This book provides a comprehensive overview of photocatalytic water splitting theory and technology with a focus on advances in photocatalyst materials. It examines how to improve the performance of photocatalysts in terms of both catalytic activity and stability as well as how to reduce material costs. It also discusses material synthesis, focusing on control of the particle size, morphology, orientation, and aspect ratio as related to the cost-effectiveness of large-scale material and device manufacturing for water splitting.Electrochemical energy storage and conversion (CRC Press)PhotoelectrochemistryWaterElectrolysisPhotoelectrochemistry.WaterElectrolysis.546/.225Chouhan Neelu933326Liu Ru-ShiZhang JiujunFlBoTFGFlBoTFGBOOK9910162789703321Photochemical water splitting2100824UNINA