Retaining individualities: the photodynamics of self-ordering porphyrin assemblies

Wen-Dong Quan; Anais Pitto-Barry; Lewis A. Baker; Eugen Stulz; Richard Napier; Rachel K. O'Reilly; Vasilios G. Stavros

doi:10.1039/c5cc09095d

Retaining individualities: the photodynamics of self-ordering porphyrin assemblies

Wen-Dong Quan, Anais Pitto-Barry, Lewis A. Baker, Eugen Stulz, Richard Napier, Rachel K. O'Reilly, Vasilios G. Stavros

Chemistry

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Abstract

The retention of photochemical properties of individual chromophores is a key feature of biological light harvesting complexes. This is achieved despite extensive aggregation of the chromophores, which in synthetic chromophore assemblies often yields a change in spectral characteristics. As an alternative approach towards mimicking biological light harvesting complexes, we report the synthesis of porphyrin assemblies which retained the photochemical properties of the individual chromophore units despite their substantial aggregation. These new materials highlight a new bottom-up approach towards the design and understanding of more complex biomimetic and naturally occurring biological systems.

Original language	English
Pages (from-to)	1938-1941
Journal	Chemical Communications
Volume	52
Early online date	7 Dec 2015
DOIs	https://doi.org/10.1039/c5cc09095d
Publication status	Published - 1 Jan 2016

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AU - Baker, Lewis A.

AU - Stulz, Eugen

AU - Napier, Richard

AU - O'Reilly, Rachel K.

AU - Stavros, Vasilios G.

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AB - The retention of photochemical properties of individual chromophores is a key feature of biological light harvesting complexes. This is achieved despite extensive aggregation of the chromophores, which in synthetic chromophore assemblies often yields a change in spectral characteristics. As an alternative approach towards mimicking biological light harvesting complexes, we report the synthesis of porphyrin assemblies which retained the photochemical properties of the individual chromophore units despite their substantial aggregation. These new materials highlight a new bottom-up approach towards the design and understanding of more complex biomimetic and naturally occurring biological systems.

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JO - Chemical Communications

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Retaining individualities: the photodynamics of self-ordering porphyrin assemblies

Abstract

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