A water-soluble tin(IV) porphyrin as a bioinspired photosensitiser for light-driven proton-reduction

The water-soluble tin(IV) porphyrin dichlorido-5,10,15,20-tetrakis(p-carboxyphenyl)-porphyrinato-tin(IV) (SnTPPC, 1) was synthesised as a mimic of biological chlorophyll photosensitisers. In natural photosynthesis, chlorophyll pigments start the multi-electron transfer processes resulting in water-o...

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Published inPhysical chemistry chemical physics : PCCP Vol. 16; no. 24; pp. 12029 - 12042
Main Authors Manke, Anne-Marie, Geisel, Karen, Fetzer, Anne, Kurz, Philipp
Format Journal Article
LanguageEnglish
Published England 01.01.2014
Subjects
Catalysis
Catalysts
Chlorophylls
Electrode potentials
Fluorescence
Ligands
Light
Magnetic Resonance Spectroscopy
Oxidation-Reduction
Photosensitizing Agents - chemistry
Photosynthesis
Porphyrins
Porphyrins - chemistry
Protons
Reduction
Solubility
Spectrophotometry, Ultraviolet
Tin - chemistry
Water - chemistry
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Abstract The water-soluble tin(IV) porphyrin dichlorido-5,10,15,20-tetrakis(p-carboxyphenyl)-porphyrinato-tin(IV) (SnTPPC, 1) was synthesised as a mimic of biological chlorophyll photosensitisers. In natural photosynthesis, chlorophyll pigments start the multi-electron transfer processes resulting in water-oxidation and NADP(+)-reduction. The photochemical properties of compound 1 were characterised by measuring absorption and fluorescence spectra. Electrochemical measurements in water revealed well-suited redox potentials of 1 for both proton-reduction to H2 as well as water-oxidation to O2. The tin(IV) porphyrin was then used as a photosensitiser in model systems for light-induced proton-reduction in aqueous solution, where an optimization of the experimental conditions was carried out to achieve reaction rates comparable to those found for [Ru(bipy)3](2+), a standard dye in artificial photosynthesis. By employing UV/Vis-spectroelectrochemistry, we found that the porphyrin ligand of 1 is redox non-innocent in water. A complex set of reduction reactions of the porphyrin macrocycle occurs during photocatalytic experiments involving the ligand's chlorin form as a key intermediate. On the basis of these results, a potential reaction sequence for light-driven H2-formation is formulated, where the reductive quenching of 1 forms the initial reaction step and reduced forms of 1 serve as hydride transfer agents to the H2 evolution catalyst. The spectroscopic, electrochemical and catalytic properties of SnTPPC make this compound class an attractive, affordable and easily accessible choice for photosensitisers in artificial photosynthetic systems. Finally, the detected complicated redox reactions of the porphyrin ring in water offer a possible explanation of why the chlorophylls of P680 or P700 are carefully wrapped in a water-free part of the PSII and PSI proteins.
AbstractList The water-soluble tin(IV) porphyrin dichlorido-5,10,15,20-tetrakis(p-carboxyphenyl)-porphyrinato-tin(IV) (SnTPPC, 1) was synthesised as a mimic of biological chlorophyll photosensitisers. In natural photosynthesis, chlorophyll pigments start the multi-electron transfer processes resulting in water-oxidation and NADP(+)-reduction. The photochemical properties of compound 1 were characterised by measuring absorption and fluorescence spectra. Electrochemical measurements in water revealed well-suited redox potentials of 1 for both proton-reduction to H2 as well as water-oxidation to O2. The tin(IV) porphyrin was then used as a photosensitiser in model systems for light-induced proton-reduction in aqueous solution, where an optimization of the experimental conditions was carried out to achieve reaction rates comparable to those found for [Ru(bipy)3](2+), a standard dye in artificial photosynthesis. By employing UV/Vis-spectroelectrochemistry, we found that the porphyrin ligand of 1 is redox non-innocent in water. A complex set of reduction reactions of the porphyrin macrocycle occurs during photocatalytic experiments involving the ligand's chlorin form as a key intermediate. On the basis of these results, a potential reaction sequence for light-driven H2-formation is formulated, where the reductive quenching of 1 forms the initial reaction step and reduced forms of 1 serve as hydride transfer agents to the H2 evolution catalyst. The spectroscopic, electrochemical and catalytic properties of SnTPPC make this compound class an attractive, affordable and easily accessible choice for photosensitisers in artificial photosynthetic systems. Finally, the detected complicated redox reactions of the porphyrin ring in water offer a possible explanation of why the chlorophylls of P680 or P700 are carefully wrapped in a water-free part of the PSII and PSI proteins.
The water-soluble tin(iv) porphyrin dichlorido-5,10,15,20-tetrakis(p-carboxyphenyl)-po rphyrinato-tin(iv) (SnTPPC, 1) was synthesised as a mimic of biological chlorophyll photosensitisers. In natural photosynthesis, chlorophyll pigments start the multi-electron transfer processes resulting in water-oxidation and NADP super(+)-reduction. The photochemical properties of compound 1 were characterised by measuring absorption and fluorescence spectra. Electrochemical measurements in water revealed well-suited redox potentials of 1 for both proton-reduction to H sub(2) as well as water-oxidation to O sub(2). The tin(iv) porphyrin was then used as a photosensitiser in model systems for light-induced proton-reduction in aqueous solution, where an optimization of the experimental conditions was carried out to achieve reaction rates comparable to those found for [Ru(bipy) sub(3)] super(2+), a standard dye in artificial photosynthesis. By employing UV/Vis-spectroelectrochemistry, we found that the porphyrin ligand of 1 is redox non-innocent in water. A complex set of reduction reactions of the porphyrin macrocycle occurs during photocatalytic experiments involving the ligand's chlorin form as a key intermediate. On the basis of these results, a potential reaction sequence for light-driven H sub(2)-formation is formulated, where the reductive quenching of 1 forms the initial reaction step and reduced forms of 1 serve as hydride transfer agents to the H sub(2) evolution catalyst. The spectroscopic, electrochemical and catalytic properties of SnTPPC make this compound class an attractive, affordable and easily accessible choice for photosensitisers in artificial photosynthetic systems. Finally, the detected complicated redox reactions of the porphyrin ring in water offer a possible explanation of why the chlorophylls of P680 or P700 are carefully wrapped in a water-free part of the PSII and PSI proteins.
Author Geisel, Karen
Kurz, Philipp
Manke, Anne-Marie
Fetzer, Anne
Author_xml – sequence: 1
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  surname: Manke
  fullname: Manke, Anne-Marie
  email: philipp.kurz@ac.uni-freiburg.de
  organization: Institute for Inorganic and Analytical Chemistry, Albert-Ludwigs-University Freiburg, Albertstraße 21, 79104 Freiburg, Germany. philipp.kurz@ac.uni-freiburg.de
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  fullname: Fetzer, Anne
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  fullname: Kurz, Philipp
BackLink https://www.ncbi.nlm.nih.gov/pubmed/24556846$$D View this record in MEDLINE/PubMed
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Snippet The water-soluble tin(IV) porphyrin dichlorido-5,10,15,20-tetrakis(p-carboxyphenyl)-porphyrinato-tin(IV) (SnTPPC, 1) was synthesised as a mimic of biological...
The water-soluble tin(iv) porphyrin dichlorido-5,10,15,20-tetrakis(p-carboxyphenyl)-po rphyrinato-tin(iv) (SnTPPC, 1) was synthesised as a mimic of biological...
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SubjectTerms Catalysis
Catalysts
Chlorophylls
Electrode potentials
Fluorescence
Ligands
Light
Magnetic Resonance Spectroscopy
Oxidation-Reduction
Photosensitizing Agents - chemistry
Photosynthesis
Porphyrins
Porphyrins - chemistry
Protons
Reduction
Solubility
Spectrophotometry, Ultraviolet
Tin - chemistry
Water - chemistry
Title A water-soluble tin(IV) porphyrin as a bioinspired photosensitiser for light-driven proton-reduction
URI https://www.ncbi.nlm.nih.gov/pubmed/24556846
https://search.proquest.com/docview/1530951525
https://search.proquest.com/docview/1551094275
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