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David James Martin - Investigation into High Efficiency Visible Light Photocatalysts for Water Reduction and Oxidation - 9783319369501 - V9783319369501
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Investigation into High Efficiency Visible Light Photocatalysts for Water Reduction and Oxidation

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Description for Investigation into High Efficiency Visible Light Photocatalysts for Water Reduction and Oxidation Paperback. Series: Springer Theses. Num Pages: 177 pages, 14 black & white illustrations, 62 colour illustrations, biography. BIC Classification: PNRD; PNRH; TDC; THX. Category: (P) Professional & Vocational. Dimension: 235 x 155 x 10. Weight in Grams: 285.

This thesis describes novel strategies for the rational design of several cutting-edge high-efficiency photocatalysts, for applications such as water photooxidation, reduction, and overall splitting using a Z-Scheme system. As such, it focuses on efficient strategies for reducing energy loss by controlling charge transfer and separation, including novel faceted forms of silver phosphate for water photooxidation at record high rates, surface-basic highly polymerised graphitic carbon nitride for extremely efficient hydrogen production, and the first example of overall water splitting using a graphitic carbon nitride-based Z-Scheme system.

Photocatalytic water splitting using solar irradiation can potentially offer a zero-carbon renewable energy source, yielding hydrogen ... Read more

The main driving force behind the investigation is the fact that no photocatalyst system has yet reported combined high efficiency, high stability, and cost effectiveness; though cheap and stable, most suffer from low efficiency.

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Product Details

Format
Paperback
Publication date
2016
Publisher
Springer International Publishing AG Switzerland
Number of pages
177
Condition
New
Series
Springer Theses
Number of Pages
149
Place of Publication
Cham, Switzerland
ISBN
9783319369501
SKU
V9783319369501
Shipping Time
Usually ships in 15 to 20 working days
Ref
99-15

About David James Martin
Dr. David James Martin studied Physics at the University of Liverpool (MPhys), and then completed a PhD in Chemical Engineering at University College London (UCL) under the tutelage of Dr. Junwang Tang. His thesis focused on the oxidation, reduction, and overall splitting of water using visible light photocatalysts. David is currently a UCL Chemistry research associate working with Dr. Andrew ... Read more

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