Interface engineering towards transition metal based nanocomposites for water splitting by Yin, Shengming

“…The main difficulty of water splitting is the lack of low-cost, stable and efficient catalysts. …”
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Towards solar fuels : photocatalyst development for water splitting and carbon dioxide reduction by Hong, Jindui

“…Solar fuels derived from solar energy are envisioned to replace fossil fuels for a sustainable earth and society. Photocatalytic water splitting for hydrogen (H2) production and photocatalytic carbon dioxide (CO2¬) reduction for gaseous or liquid fuels production are two of the most promising but challenging processes. …”
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Development of low cost, highly stable and active water splitting photocatalysts for hydrogen production by Goh, Simon Chun Kiat

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Photocatalytic water splitting for hydrogen production using carbon nanotubes-based catalysts under visible light by Koh, Wing Hong.

“…Hydrogen production from photocatalytic water splitting using solar energy and photocatalysts is considered as one of the promising routes. …”
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Molecular and nano-structured catalyst design toward dye sensitized solar fuel production by Han, Jianyu

“…In this thesis, the research work is dedicated to the design and development of efficient catalysts that can withstand the cruel reduction and oxidation conditions in photocatalytic water splitting systems.…”
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Photocatalytic systems for visible light driven H2 production from water by Zhang, Wei

“…Water splitting from sunlight is a clean and recyclable way to provide H2 as an alternative choice for energy requirements. …”
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Photocatalyst systems containing earth abundant elements for photocatalytic H2 or O2 production from water. by Wang, Yabo.

“…H2 production from photocatalytic water splitting using sunlight and photocatalysts is a clean and carbon neutral process to meet the energy and environmental requirements in the future. …”
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Flame synthesis of nanostructured TiO2 for energy and environmental applications by Wu, Shuyang

“…Among these methods, photocatalytic water splitting, CO2 reduction and volatile organic compound (VOC) degradation have been widely studied as promising ways to convert solar energy to chemical energy and eliminate the air pollution because sunlight, water, and CO2 are abundant on earth and the reactions take place in mild conditions. …”
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