Photocatalytic Reduction of Artificial and Natural Nucleotide Cofactors with a Chlorophyll-Like Tin-Dihydroporphyrin Sensitizer

Kerstin Oppelt; Eva Wöss; Martin Stiftinger; Wolfgang Schöfberger; Wolfgang Buchberger; Günther Knör

doi:10.1021/ic401611v

Photocatalytic Reduction of Artificial and Natural Nucleotide Cofactors with a Chlorophyll-Like Tin-Dihydroporphyrin Sensitizer

Kerstin Oppelt, Eva Wöss, Martin Stiftinger, Wolfgang Schöfberger, Wolfgang Buchberger, Günther Knör

Research output: Contribution to journal › Article › peer-review

Abstract

An efficient photocatalytic two-electron reduction and protonation of nicotine amide adenine dinucleotide (NAD+)as well as the synthetic nucleotide cofactor analogue N-benzyl-3- carbamoyl-pyridinium (BNAD+) powered by photons in the long-wavelength region of visible light ( > 610 nm ) is demonstrated for the first time. This functional artificial photosynthetic counterpart of the complete energy-trapping and solar-to-fuel conversion primary processes occurring in natural photosystem I (PS I) is achieved with a robust water-soluble tin(IV) complex of meso-tetrakis(N-methylpyridinium)-chlorin acting as the light-harvesting sensitizer ( threshold wavelength 660 nm ). Very promising conversion efficiencies, quantum yields and excellent photosensitizer stabilities are observed.

Original language	English
Pages (from-to)	11910-11922
Number of pages	13
Journal	Inorganic Chemistry
Volume	52
Issue number	20
DOIs	https://doi.org/10.1021/ic401611v
Publication status	Published - 2013

Fields of science

103 Physics, Astronomy
104002 Analytical chemistry
104003 Inorganic chemistry
204 Chemical Process Engineering
104016 Photochemistry
104 Chemistry
106032 Photobiology
106002 Biochemistry
107 Other Natural Sciences
211908 Energy research
207106 Renewable energy
105904 Environmental research

JKU Focus areas

Nano-, Bio- and Polymer-Systems: From Structure to Function
Engineering and Natural Sciences (in general)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1021/ic401611v

Bio-inspired Multielectron Transfer Photosensitizers
Topf, C. (Researcher), Wöss, E. (Researcher) & Knör, G. (PI)
Austrian Science Fund
01.11.2009 → 31.10.2012
Project: Funded research › FWF - Austrian Science Fund

Cite this

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title = "Photocatalytic Reduction of Artificial and Natural Nucleotide Cofactors with a Chlorophyll-Like Tin-Dihydroporphyrin Sensitizer",

abstract = "An efficient photocatalytic two-electron reduction and protonation of nicotine amide adenine dinucleotide (NAD+)as well as the synthetic nucleotide cofactor analogue N-benzyl-3- carbamoyl-pyridinium (BNAD+) powered by photons in the long-wavelength region of visible light ( > 610 nm ) is demonstrated for the first time. This functional artificial photosynthetic counterpart of the complete energy-trapping and solar-to-fuel conversion primary processes occurring in natural photosystem I (PS I) is achieved with a robust water-soluble tin(IV) complex of meso-tetrakis(N-methylpyridinium)-chlorin acting as the light-harvesting sensitizer ( threshold wavelength 660 nm ). Very promising conversion efficiencies, quantum yields and excellent photosensitizer stabilities are observed.",

author = "Kerstin Oppelt and Eva W{\"o}ss and Martin Stiftinger and Wolfgang Sch{\"o}fberger and Wolfgang Buchberger and G{\"u}nther Kn{\"o}r",

year = "2013",

doi = "10.1021/ic401611v",

language = "English",

volume = "52",

pages = "11910--11922",

journal = "Inorganic Chemistry",

issn = "1520-510X",

publisher = "American Chemical Society Publications",

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T1 - Photocatalytic Reduction of Artificial and Natural Nucleotide Cofactors with a Chlorophyll-Like Tin-Dihydroporphyrin Sensitizer

AU - Oppelt, Kerstin

AU - Wöss, Eva

AU - Stiftinger, Martin

AU - Schöfberger, Wolfgang

AU - Buchberger, Wolfgang

AU - Knör, Günther

PY - 2013

Y1 - 2013

N2 - An efficient photocatalytic two-electron reduction and protonation of nicotine amide adenine dinucleotide (NAD+)as well as the synthetic nucleotide cofactor analogue N-benzyl-3- carbamoyl-pyridinium (BNAD+) powered by photons in the long-wavelength region of visible light ( > 610 nm ) is demonstrated for the first time. This functional artificial photosynthetic counterpart of the complete energy-trapping and solar-to-fuel conversion primary processes occurring in natural photosystem I (PS I) is achieved with a robust water-soluble tin(IV) complex of meso-tetrakis(N-methylpyridinium)-chlorin acting as the light-harvesting sensitizer ( threshold wavelength 660 nm ). Very promising conversion efficiencies, quantum yields and excellent photosensitizer stabilities are observed.

AB - An efficient photocatalytic two-electron reduction and protonation of nicotine amide adenine dinucleotide (NAD+)as well as the synthetic nucleotide cofactor analogue N-benzyl-3- carbamoyl-pyridinium (BNAD+) powered by photons in the long-wavelength region of visible light ( > 610 nm ) is demonstrated for the first time. This functional artificial photosynthetic counterpart of the complete energy-trapping and solar-to-fuel conversion primary processes occurring in natural photosystem I (PS I) is achieved with a robust water-soluble tin(IV) complex of meso-tetrakis(N-methylpyridinium)-chlorin acting as the light-harvesting sensitizer ( threshold wavelength 660 nm ). Very promising conversion efficiencies, quantum yields and excellent photosensitizer stabilities are observed.

U2 - 10.1021/ic401611v

DO - 10.1021/ic401611v

M3 - Article

SN - 1520-510X

VL - 52

SP - 11910

EP - 11922

JO - Inorganic Chemistry

JF - Inorganic Chemistry

IS - 20

ER -

Photocatalytic Reduction of Artificial and Natural Nucleotide Cofactors with a Chlorophyll-Like Tin-Dihydroporphyrin Sensitizer

Abstract

Fields of science

JKU Focus areas

UN SDGs

Access to Document

Projects

Bio-inspired Multielectron Transfer Photosensitizers

Cite this