Overview

With the rapid worldwide increase of interest and excitement about the promise of artificial photosynthesis for renewable fuels, the research community is beginning to focus on the challenges of integrating the various components into complete, unassisted solar fuel generators. Integrated Solar Fuel Generators discusses the scientific and engineering efforts addressing the challenges of building complete integrated artificial photosystems that will form the basis for developing a solar fuels technology. Building on recent substantial progress towards efficient semiconductor light absorbers and robust, earth abundant heterogeneous catalysts for water oxidation and proton reduction by the community, the integration of these components into efficient durable generators suitable for scale-up moves into focus. To succeed, a broad range of materials, processing, and design issues need to be addressed to meet efficiency, stability and scalability requirements. This book describes the critical areas of research and development towards viable integrated solar fuels systems, the current state of the art of these efforts and outlines future research needs that will accelerate progress towards a deployable technology.

Full Product Details

Author:   Ian D Sharp (Technical University of Munich, Germany) ,  Harry A Atwater (California Institute of Technology, USA) ,  Hans-Joachim Lewerenz (California Institute of Technology, USA) ,  Laurie Peter
Publisher:   Royal Society of Chemistry
Imprint:   Royal Society of Chemistry
Volume:   Volume 22
Weight:   1.016kg
ISBN:  

9781782625551

ISBN 10:   1782625550
Pages:   568
Publication Date:   14 September 2018
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Concepts of Photoelectrochemical Energy Conversion and Fuel Generation; Photo-electrochemical Hydrogen Plants at Scale: A Life-cycle Net Energy Assessment; Understanding the Effects of Composition and Structure on the Oxygen Evolution Reaction (OER) Occurring on NiFeOx Catalysts; Surface Science, X-ray and Electron Spectroscopy Studies of Electrocatalysis; Evaluating Electrocatalysts for Solar Water-splitting Reactions; Heterojunction Approaches for Stable and Efficient Photoelectrodes; Artificial Photosynthesis with Inorganic Particles; Degradation of Semiconductor Electrodes in Photoelectrochemical Devices: Principles and Case Studies; High Throughput Experimentation for the Discovery of Water Splitting Materials; Membranes for Solar Fuels Devices; Prototyping Development of Integrated Solar-driven Water-splitting Cells; High-efficiency Water Splitting Systems; Continuum-scale Modeling of Solar Water-splitting Devices

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Author Information

Ian D Sharp is a Staff Scientist at the Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laborator, USA. Harry A Atwater is the Howard Hughes Professor of Applied Physics and Materials Science at the California Institute of Technology, USA. Hans-Joachim Lewerenz is Department Head for Accelerated Discovery at the Joint Center for Artificial Photosynthesis, Lawrence Berkeley National Laborator, USA.

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