Ultrafast spectroscopic investigation of discrete co-assemblies of a Zn-porphyrin–polymer conjugate with a hexapyridyl template

Wen Dong Quan; Rachel O'Reilly; Lewis A. Baker; Richard Napier; Vasilios Stavros; Michael Staniforth; Thomas Wilks

doi:10.1016/j.cplett.2021.138736

Ultrafast spectroscopic investigation of discrete co-assemblies of a Zn-porphyrin–polymer conjugate with a hexapyridyl template

Wen Dong Quan, Rachel O'Reilly, Lewis A. Baker, Richard Napier, Vasilios Stavros, Michael Staniforth, Thomas Wilks

Chemistry

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Abstract

One of the key features of biological light harvesting complexes (LHCs) is their incorporation of multichromophoric reaction centres via non-covalent interactions. Most synthetic mimics require relatively complex syntheses and are constructed in organic solvents. Here, we report the use of polymer self-assembly to enable the formation of Zn-porphyrin–pyridine complexes in aqueous solution. Time-resolved femtosecond pump–probe spectroscopy revealed four time constants, each associated with significant ground state bleach recovery, suggesting energy transfer between the porphyrin and pyridine. Self-assembly opens up new photophysical relaxation pathways, making it a useful additional strategy for the construction of more advanced LHC mimics.

Original language	English
Article number	138736
Journal	Chemical Physics Letters
Volume	777
Early online date	11 May 2021
DOIs	https://doi.org/10.1016/j.cplett.2021.138736
Publication status	Published - 16 Aug 2021

Keywords

LHC mimics
amphiphilic
multidentate
photophysical

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title = "Ultrafast spectroscopic investigation of discrete co-assemblies of a Zn-porphyrin–polymer conjugate with a hexapyridyl template",

abstract = "One of the key features of biological light harvesting complexes (LHCs) is their incorporation of multichromophoric reaction centres via non-covalent interactions. Most synthetic mimics require relatively complex syntheses and are constructed in organic solvents. Here, we report the use of polymer self-assembly to enable the formation of Zn-porphyrin–pyridine complexes in aqueous solution. Time-resolved femtosecond pump–probe spectroscopy revealed four time constants, each associated with significant ground state bleach recovery, suggesting energy transfer between the porphyrin and pyridine. Self-assembly opens up new photophysical relaxation pathways, making it a useful additional strategy for the construction of more advanced LHC mimics. ",

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T1 - Ultrafast spectroscopic investigation of discrete co-assemblies of a Zn-porphyrin–polymer conjugate with a hexapyridyl template

AU - Quan, Wen Dong

AU - O'Reilly, Rachel

AU - Baker, Lewis A.

AU - Napier, Richard

AU - Stavros, Vasilios

AU - Staniforth, Michael

AU - Wilks, Thomas

PY - 2021/8/16

Y1 - 2021/8/16

N2 - One of the key features of biological light harvesting complexes (LHCs) is their incorporation of multichromophoric reaction centres via non-covalent interactions. Most synthetic mimics require relatively complex syntheses and are constructed in organic solvents. Here, we report the use of polymer self-assembly to enable the formation of Zn-porphyrin–pyridine complexes in aqueous solution. Time-resolved femtosecond pump–probe spectroscopy revealed four time constants, each associated with significant ground state bleach recovery, suggesting energy transfer between the porphyrin and pyridine. Self-assembly opens up new photophysical relaxation pathways, making it a useful additional strategy for the construction of more advanced LHC mimics.

AB - One of the key features of biological light harvesting complexes (LHCs) is their incorporation of multichromophoric reaction centres via non-covalent interactions. Most synthetic mimics require relatively complex syntheses and are constructed in organic solvents. Here, we report the use of polymer self-assembly to enable the formation of Zn-porphyrin–pyridine complexes in aqueous solution. Time-resolved femtosecond pump–probe spectroscopy revealed four time constants, each associated with significant ground state bleach recovery, suggesting energy transfer between the porphyrin and pyridine. Self-assembly opens up new photophysical relaxation pathways, making it a useful additional strategy for the construction of more advanced LHC mimics.

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KW - multidentate

KW - photophysical

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U2 - 10.1016/j.cplett.2021.138736

DO - 10.1016/j.cplett.2021.138736

M3 - Article

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VL - 777

JO - Chemical Physics Letters

JF - Chemical Physics Letters

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ER -

Ultrafast spectroscopic investigation of discrete co-assemblies of a Zn-porphyrin–polymer conjugate with a hexapyridyl template

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