Titlebook: Investigation into High Efficiency Visible Light Photocatalysts for Water Reduction and Oxidation; David James Martin Book 2015 Springer I

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Investigation into High Efficiency Visible Light Photocatalysts for Water Reduction and Oxidation978-3-319-18488-3Series ISSN 2190-5053 Series E-ISSN 2190-5061

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https://doi.org/10.1007/978-3-319-18488-3Graphitic Carbon Nitride; High Efficiency Visible Light Photocatalysts; Photocatalysis; Renewable Fuel;

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David James MartinNominated as an outstanding PhD thesis by the University College London, UK.Demonstrates a novel strategy for designing efficient photocatalysts for renewable fuel synthesis on the basis of solar irra

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Introduction

Experimental Development,In order to perform photocatalytic tests on compounds, a suitable reactor was fabricated based on previous successful designs in the literature [.–.]. The photocatalytic water splitting reaction is normally monitored by recording amount of product formed in a relatively small fixed volume batch reactor, over a set period of time.

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Hydrogen Evolving Photocatalyst Development,This chapter explores the feasibility of g-C.N. as a photocatalyst for hydrogen production from water. Graphitic carbon nitride was synthesised via thermal decomposition, using 4 different precursors, at various calcination temperatures, calcination ramp rates, cleaning techniques, and cocatalyst element/weighting.

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Novel Z-Scheme Overall Water Splitting Systems,Following the success of an extremely efficient photocatalyst for both O. and H. evolution under visible light, the research focus naturally moved to a demonstration system for pure water splitting by using urea derived g-C.N. and tetrahedral Ag.PO. crystals.

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Investigation into High Efficiency Visible Light Photocatalysts for Water Reduction and Oxidation