Creation of New Metal Nanoparticles and Their Hydrogen-Storage and Catalytic Properties

Nonfiction, Science & Nature, Technology, Nanotechnology, Science, Chemistry, Technical & Industrial
Cover of the book Creation of New Metal Nanoparticles and Their Hydrogen-Storage and Catalytic Properties by Kohei Kusada, Springer Japan
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Author: Kohei Kusada ISBN: 9784431550877
Publisher: Springer Japan Publication: July 16, 2014
Imprint: Springer Language: English
Author: Kohei Kusada
ISBN: 9784431550877
Publisher: Springer Japan
Publication: July 16, 2014
Imprint: Springer
Language: English

This thesis reports the discovery of metal nanoparticles having new structures that do not exist in bulk state and that exhibit hydrogen storage ability or CO oxidation activity. Research into the reaction of hydrogen with metals has attracted much attention because of potential applications as effective hydrogen storage materials, as permeable films, or as catalysts for hydrogenation. Also, CO oxidation catalysts have been extensively developed because of their importance to CO removal from car exhaust or fuel-cell systems. At the same time, atomic-level (solid solution) alloying has the advantage of being able to continuously control chemical and physical properties of elements by changing compositions and/or combinations of constituent elements. This thesis provides a novel strategy for the basis of inter-elemental fusion to create highly efficient functional materials for energy and material conversions.

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This thesis reports the discovery of metal nanoparticles having new structures that do not exist in bulk state and that exhibit hydrogen storage ability or CO oxidation activity. Research into the reaction of hydrogen with metals has attracted much attention because of potential applications as effective hydrogen storage materials, as permeable films, or as catalysts for hydrogenation. Also, CO oxidation catalysts have been extensively developed because of their importance to CO removal from car exhaust or fuel-cell systems. At the same time, atomic-level (solid solution) alloying has the advantage of being able to continuously control chemical and physical properties of elements by changing compositions and/or combinations of constituent elements. This thesis provides a novel strategy for the basis of inter-elemental fusion to create highly efficient functional materials for energy and material conversions.

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