Evolution of reaction center mimics to systems capable of generating solar fuel

Benjamin D. Sherman; Michael D. Vaughn; Jesse J. Bergkamp; Devens Gust; Ana Moore; Thomas Moore

doi:10.1007/s11120-013-9795-4

Evolution of reaction center mimics to systems capable of generating solar fuel

Benjamin D. Sherman, Michael D. Vaughn, Jesse J. Bergkamp, Devens Gust, Ana Moore, Thomas Moore

Research output: Contribution to journal › Review article › peer-review

62 Scopus citations

Abstract

Capturing and converting solar energy via artificial photosynthesis offers an ideal way to limit society's dependence on fossil fuel and its myriad consequences. The development and study of molecular artificial photosynthetic reactions centers and antenna complexes and the combination of these constructs with catalysts to drive the photochemical production of a fuel helps to build the understanding needed for development of future scalable technologies. This review focuses on the study of molecular complexes, design of which is inspired by the components of natural photosynthesis, and covers research from early triad reaction centers developed by the group of Gust, Moore, and Moore to recent photoelectrochemical systems capable of using light to convert water to oxygen and hydrogen.

Original language	English (US)
Pages (from-to)	59-70
Number of pages	12
Journal	Photosynthesis research
Volume	120
Issue number	1-2
DOIs	https://doi.org/10.1007/s11120-013-9795-4
State	Published - May 2014

Keywords

Artificial photosynthesis
Biomimicry
Solar energy conversion
Sustainability

ASJC Scopus subject areas

Biochemistry
Plant Science
Cell Biology

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10.1007/s11120-013-9795-4

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abstract = "Capturing and converting solar energy via artificial photosynthesis offers an ideal way to limit society's dependence on fossil fuel and its myriad consequences. The development and study of molecular artificial photosynthetic reactions centers and antenna complexes and the combination of these constructs with catalysts to drive the photochemical production of a fuel helps to build the understanding needed for development of future scalable technologies. This review focuses on the study of molecular complexes, design of which is inspired by the components of natural photosynthesis, and covers research from early triad reaction centers developed by the group of Gust, Moore, and Moore to recent photoelectrochemical systems capable of using light to convert water to oxygen and hydrogen.",

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AU - Sherman, Benjamin D.

AU - Vaughn, Michael D.

AU - Bergkamp, Jesse J.

AU - Gust, Devens

AU - Moore, Ana

AU - Moore, Thomas

PY - 2014/5

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AB - Capturing and converting solar energy via artificial photosynthesis offers an ideal way to limit society's dependence on fossil fuel and its myriad consequences. The development and study of molecular artificial photosynthetic reactions centers and antenna complexes and the combination of these constructs with catalysts to drive the photochemical production of a fuel helps to build the understanding needed for development of future scalable technologies. This review focuses on the study of molecular complexes, design of which is inspired by the components of natural photosynthesis, and covers research from early triad reaction centers developed by the group of Gust, Moore, and Moore to recent photoelectrochemical systems capable of using light to convert water to oxygen and hydrogen.

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KW - Biomimicry

KW - Solar energy conversion

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Evolution of reaction center mimics to systems capable of generating solar fuel

Abstract

Keywords

ASJC Scopus subject areas

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