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Splitting Water with Cobalt

Angewandte Chemie International Edition, 2011
AbstractThe future of energy supply depends on innovative breakthroughs regarding the design of cheap, sustainable, and efficient systems for the conversion and storage of renewable energy sources, such as solar energy. The production of hydrogen, a fuel with remarkable properties, through sunlight‐driven water splitting appears to be a promising and ...
Artero, Vincent   +2 more
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Water Splitting by Cooperative Catalysis

Angewandte Chemie International Edition, 2009
A mononuclear Ru complex is shown to efficiently split water into H2 and O2 in consecutive steps through a heat- and light-driven process (see picture). Thermally driven H2 formation involves the aid of a non-innocent ligand scaffold, while dioxygen is generated by initial photochemically induced reductive elimination of hydrogen peroxide.
Hetterscheid, D.G.H.   +3 more
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On the splitting of water

International Journal of Hydrogen Energy, 1985
Abstract Future energy needs and requirements in manufacturing processes (like fertilizers, synfuels, etc.) makes hydrogen an important chemical commodity. It is projected that hydrogen required for various processes may reach 1.8 × 109 MBTU by the year 2000.
J BOCKRIS   +3 more
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The mechanism of photosynthetic water splitting

Photochemical & Photobiological Sciences, 2005
Oxygenic photosynthesis, which provides the biosphere with most of its chemical energy, uses water as its source of electrons. Water is photochemically oxidized by the protein complex photosystem II (PSII), which is found, along with other proteins of the photosynthetic light reactions, in the thylakoid membranes of cyanobacteria and of green plant ...
James P, McEvoy   +3 more
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Water Splitting

2012
Water splitting means a chemical transformation that separates water into its elements which are molecular oxygen (O2) and molecular hydrogen (H2). The transformation can be done by various processes such as: electrolysis, photochemical, photocatalytic, thermal decomposition.
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Photoelectrochemical Water Splitting

2013
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 ...
Zhebo Chen, Huyen N. Dinh, Eric Miller
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Hydrogen Production by Water Splitting

2015
Hydrogen is a promising energy vector in many industries such as: metallurgical industry, thermal treatments, petrochemical industry, food industry, electrical energy production, electronic industry, mechanical industry because of the zero environmental impact of the combustion products (only water).
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Photocatalytic Water Splitting

2016
This chapter deals with the topic of photocatalytic water splitting. Photosynthesis in nature is discussed leading into artificial photosynthesis in the lab. The basic principles of photocatalytic water splitting are introduced, followed by materials used for artificial photosynthesis, visible-light-driven photocatalysis, and dye-sensitized visible ...
Aleksandar Staykov   +2 more
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Water-Splitting Standards

Science, 2013
Chemistry Widespread use of functional electrocatalytic water-splitting systems in conjunction with solar power infrastructure will probably require a composition of Earth-abundant materials that remain stable under the reaction conditions and operate efficiently at minimal overpotential (a measure of how much of the input energy gets stored in the ...
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The Electrochemical Splitting of Water

1983
The electrochemical production of hydrogen as an energy medium is becoming economically feasible. The technology is established; it is clean and requires no extra separation or purification of products; it generates suitable pressures for storage and can be used in a modular mode.
F. Gutmann, Oliver J. Murphy
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