Photoelectrochemical water splitting : materials, processes and architectures

1 The Potential Contribution of Photoelectrochemistry in the Global Energy Future 2 Kinetics and Mechanisms of Light-Driven Reactions at Semiconductor Electrodes: Principles and Techniques 3: Structured Materuals for Photoelectrochemical Water Splitting 4: Tandem Photoelectrochemical Cells for Water Splitting 5: Particulate Oxynitrides for Photocatalytic Water Splitting under Visible Light 6: Rapid Screening Methods in the Discovery and Investigation of New Photocatalyst Compositions 7: Oxygen Evolution and Reduction Catalysts: Structural and Electronic Aspects of Transition Metal Based Compounds and Composites 8: The Group II-Nitride Materials Class: from Preparation to Perspectives in Photoelectrocatalysis 9: Epitaxial III-V Thin Film Absorbers: Preparation, Efficient InP Photocathodes and Routes to High Efficiency Tandem Structures 10: Photoelectrochemical Water Splitting: A First Principles Approach 11: Electro- and Photocatalytic Reduction of CO2: The Homogeneous and Hetereogeneous Worlds Collide? 12: Key Intermediates in the Hydrogenation and Electrochemical Reduction of CO2 13: Novel Approaches to Water Splitting by Solar Photons 14: Light Harvesting Strategies Inspired by Nature 15: Electronic Structure and Bonding of Water at Surfaces 16: New Perspectives and a Review of Progress