Advances in photoelectrochemical water splitting : theory, experiment and systems analysis / edited by S. David Tilley, Stephan Lany and Roel van de Krol

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Resource type: Ressourcentyp: Buch (Online)Buch (Online)Sprache: Englisch Reihen: RSC energy and environment series ; no. 20Verlag: Cambridge : Royal Society of Chemistry, [2018]Copyright-Datum: © 2018Beschreibung: 1 Online-Ressource (xii, 289 Seiten) : Illustrationen, DiagrammeISBN:

9781782629863
9781788014465

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Genre/Form:

Aufsatzsammlung

Andere physische Formen: 9781782629252 | Erscheint auch als: Advances in photoelectrochemical water splitting. Druck-Ausgabe. London : Royal Society of Chemistry, 2018. xii, 289 SeitenDDC-Klassifikation:

541/.35

LOC-Klassifikation:

QD578

DOI: DOI: 10.1039/9781782629863Online-Ressourcen:

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Zusammenfassung: Cover; Preface; Contents; Chapter 1 The Challenge of Water Splitting in View of Photosynthetic Reality and of Research Trends; 1.1 Introduction; 1.2 The Evolution of Natural Photosynthetic Water Splitting: The Most Remarkable Facts; 1.2.1 The Missing Overpotential in Photosynthesis: What Is the Evidence?; 1.3 How Can Photosynthetic Water Oxidation Be More Efficient Than Technical?; 1.3.1 Thermodynamics of Photo-induced Water Splitting; 1.3.2 How Did Evolution Optimise Photosynthetic Water Oxidation?; 1.3.3 How Could Such a Self-organisation Mechanism Be Experimentally Dealt With?Zusammenfassung: 1.4 Progress with Artificial Photo-electrochemical Water Splitting1.5 Bio-mimetic Approaches Require Progress in Non-equilibrium, Irreversible Thermodynamics; 1.5.1 A Paradigm Change Towards a Fundamental Time Arrow Is Needed; References; Chapter 2 Theoretical Design of PEC Materials; 2.1 Introduction; 2.2 Effects of Doping in Photocatalyst; 2.2.1 Chromium Doping in SrTiO3; 2.2.2 Sulfur and Silicon Doping in Ag3PO4; 2.3 Band Structure Design of Highly Efficient Photocatalysis by Strain Engineering; 2.3.1 Strain Engineering for Single-layer SnS2; 2.3.2 Strain Engineering for Layered SnOZusammenfassung: 2.4 Exploration of Photofunctional Materials Employing Evolutional Structure Search2.4.1 Mixed Valence Tin Oxides as Novel Photocatalysts; 2.4.2 Determination of Crystal Structures of Graphitic Carbon Nitride; 2.5 Conclusions; Acknowledgements; References; Chapter 3 Computational Screening of Light-absorbing Materials for Photoelectrochemical Water Splitting; 3.1 Introduction; 3.2 Density Functional Theory and High-throughput Screening; 3.3 Screening Descriptors and Criteria; 3.3.1 Abundance, Cost and Herfindahl-Hirschman Index; 3.3.2 Toxicity; 3.3.3 Stability; 3.3.4 Electronic PropertiesZusammenfassung: 3.3.5 Direct Calculation of Light Absorption3.3.6 Interfaces; 3.4 Materials Investigated; 3.4.1 Perovskites; 3.4.2 Electronic Properties of Existing Materials; 3.4.3 2D Materials; 3.5 Conclusions and Perspectives; Acknowledgements; References; Chapter 4 Unravelling the Charge Transfer Mechanism in Water Splitting Hematite Photoanodes; 4.1 Introduction; 4.2 Photoelectrochemical Methods; 4.2.1 Current Density-Voltage (J-V) Curve Measurements; 4.2.2 Current Transient Measurements; 4.2.3 Cyclic Voltammetry (CV) Surface Measurements; 4.2.4 Electrochemical Impedance Spectroscopy (EIS)Zusammenfassung: 4.2.5 Intensity Modulated Photocurrent Spectroscopy (IMPS)4.3 Mechanism of Water Oxidation; 4.3.1 PEC Water Oxidation on Hematite Photoanode; 4.3.2 Photochemical Water Oxidation on Iron-based Homogeneous Catalysts; 4.3.3 Determination of Water OxidationIntermediates via Operando Infrared Spectroscopy; 4.4 Ternary Metal Oxides for PEC Water Oxidation; 4.4.1 CuWO4; 4.4.2 BiVO4; 4.5 Outlook; 4.6 Summary; Acknowledgements; References; Chapter 5 Rate Law Analysis of Water Splitting Photoelectrodes; 5.1 Introduction; 5.1.1 Rate Law Analysis for Solar Fuels Production; 5.1.2 Kinetic ModelZusammenfassung: A comprehensive overview of photoelectrochemical water splitting, from theoretical aspects to systems analysis, for the energy research communityPPN: PPN: 1019452684Package identifier: Produktsigel: ZDB-1-RSEK

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