Light-Driven Hydrogen Production by Hydrogenases and a Ru-Complex inside a Nanoporous Glass Plate under Aerobic External Conditions

Hydrogenases are powerful catalysts for light-driven H2 production using a combination of photosensitizers. However, except oxygen-tolerant hydrogenases, they are immediately deactivated under aerobic conditions. We report a light-driven H2 evolution system that works stably even under aerobic condi...

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Bibliographic Details
Published in:The journal of physical chemistry letters 2014-07, Vol.5 (14), p.2402-2407
Main Authors: Noji, Tomoyasu, Kondo, Masaharu, Jin, Tetsuro, Yazawa, Tetsuo, Osuka, Hisao, Higuchi, Yoshiki, Nango, Mamoru, Itoh, Shigeru, Dewa, Takehisa
Format: Article
Language:English
Subjects:
Surfaces, Interfaces, Porous Materials, and Catalysis
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Summary:Hydrogenases are powerful catalysts for light-driven H2 production using a combination of photosensitizers. However, except oxygen-tolerant hydrogenases, they are immediately deactivated under aerobic conditions. We report a light-driven H2 evolution system that works stably even under aerobic conditions. A [NiFe]-hydrogenase from Desulfovibrio vulgaris Miyazaki F was immobilized inside nanoporous glass plates (PGPs) with a pore diameter of 50 nm together with a ruthenium complex and methyl viologen as a photosensitizer and an electron mediator, respectively. After immersion of PGP into the medium containing the catalytic components, an anaerobic environment automatically established inside the nanopores even under aerobic external conditions upon irradiation with solar-simulated light; this system constantly evolved H2 with an efficiency of 3.7 μmol H2 m–2 s–1. The PGP system proposed in this work represents a promising first step toward the development of an O2-tolerant solar energy conversion system.
ISSN:1948-7185
1948-7185
DOI:10.1021/jz5008164