Diketopyrrolopyrrole-Porphyrin Conjugates as Broadly Absorbing Sensitizers for Dye-Sensitized Solar Cells

A series of four new push–pull zinc porphyrin‐based dyes was synthesised for hybrid photovoltaic solar cells with a view to enhancing the light‐harvesting efficiency at approximately 550 nm with a diketopyrrolopyrrole (DPP) unit. The strength of the donor side of the push–pull porphyrin was tuned by...

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Veröffentlicht in:	ChemSusChem 2012-08, Vol.5 (8), p.1568-1577
Hauptverfasser:	Warnan, Julien, Favereau, Ludovic, Meslin, Frédéric, Severac, Marjorie, Blart, Errol, Pellegrin, Yann, Jacquemin, Denis, Odobel, Fabrice
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption Chemical Sciences Coloring Agents - chemistry Drug Design Electric Power Supplies Electrodes macrocycles Models, Molecular Molecular Conformation nanoparticles Organic chemistry Porphyrins - chemical synthesis Porphyrins - chemistry Pyrrolidinones - chemistry Quantum Theory semiconductors sensitizers Solar Energy Titanium - chemistry zinc
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creator	Warnan, Julien Favereau, Ludovic Meslin, Frédéric Severac, Marjorie Blart, Errol Pellegrin, Yann Jacquemin, Denis Odobel, Fabrice
description	A series of four new push–pull zinc porphyrin‐based dyes was synthesised for hybrid photovoltaic solar cells with a view to enhancing the light‐harvesting efficiency at approximately 550 nm with a diketopyrrolopyrrole (DPP) unit. The strength of the donor side of the push–pull porphyrin was tuned by affixing the electron‐rich 4,4′‐dimethoxydiphenylamine group at the meso position of the macrocycle, and the influence of the distance between the semiconductor surface and the porphyrin chromophore was assessed by introducing different π‐conjugated spacers. Charge‐transfer transitions over great distances were characterised by electronic absorption spectroscopy and DFT calculations. The absorption and photoactivity spectra of the new bichromophoric dyes spans the whole visible spectrum to the red, implying a better light‐harvesting efficiency than regular porphyrin as the absorption spectra of DPP and porphyrin complement one another. Photovoltaic conversion efficiencies accordingly increase from 2.40 to 5.19 %. Interestingly, the best overall efficiency was reached with dye 3, which lacks the powerful donating group in the meso position of the porphyrin core. Optical and electrochemical measurements coupled to time dependent (TD)‐DFT calculations give insight into the deleterious effect of the 4,4′‐dimethoxydiphenylamine unit on the photovoltaic performances, paving the way towards the design of efficient push–pull porphyrin‐based sensitizers. Panoptic porphyrin: We present the synthesis, the electronic properties, the time dependent DFT calculations and the photovoltaic performances of new porphyrin sensitizers in a TiO2 dye‐sensitized solar cell. Porphyrin dyes represent the most efficient sensitizer in DSSC, but they exhibit a weak absorbance around 550 nm. The bichromophoric system presented (see picture) is synthesized by connecting a diketopyrrolopyrrole with a push–pull porphyrin to obtain a real panchromatic dye.
doi_str_mv	10.1002/cssc.201100764
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The strength of the donor side of the push–pull porphyrin was tuned by affixing the electron‐rich 4,4′‐dimethoxydiphenylamine group at the meso position of the macrocycle, and the influence of the distance between the semiconductor surface and the porphyrin chromophore was assessed by introducing different π‐conjugated spacers. Charge‐transfer transitions over great distances were characterised by electronic absorption spectroscopy and DFT calculations. The absorption and photoactivity spectra of the new bichromophoric dyes spans the whole visible spectrum to the red, implying a better light‐harvesting efficiency than regular porphyrin as the absorption spectra of DPP and porphyrin complement one another. Photovoltaic conversion efficiencies accordingly increase from 2.40 to 5.19 %. Interestingly, the best overall efficiency was reached with dye 3, which lacks the powerful donating group in the meso position of the porphyrin core. Optical and electrochemical measurements coupled to time dependent (TD)‐DFT calculations give insight into the deleterious effect of the 4,4′‐dimethoxydiphenylamine unit on the photovoltaic performances, paving the way towards the design of efficient push–pull porphyrin‐based sensitizers. Panoptic porphyrin: We present the synthesis, the electronic properties, the time dependent DFT calculations and the photovoltaic performances of new porphyrin sensitizers in a TiO2 dye‐sensitized solar cell. Porphyrin dyes represent the most efficient sensitizer in DSSC, but they exhibit a weak absorbance around 550 nm. 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Optical and electrochemical measurements coupled to time dependent (TD)‐DFT calculations give insight into the deleterious effect of the 4,4′‐dimethoxydiphenylamine unit on the photovoltaic performances, paving the way towards the design of efficient push–pull porphyrin‐based sensitizers. Panoptic porphyrin: We present the synthesis, the electronic properties, the time dependent DFT calculations and the photovoltaic performances of new porphyrin sensitizers in a TiO2 dye‐sensitized solar cell. Porphyrin dyes represent the most efficient sensitizer in DSSC, but they exhibit a weak absorbance around 550 nm. 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The strength of the donor side of the push–pull porphyrin was tuned by affixing the electron‐rich 4,4′‐dimethoxydiphenylamine group at the meso position of the macrocycle, and the influence of the distance between the semiconductor surface and the porphyrin chromophore was assessed by introducing different π‐conjugated spacers. Charge‐transfer transitions over great distances were characterised by electronic absorption spectroscopy and DFT calculations. The absorption and photoactivity spectra of the new bichromophoric dyes spans the whole visible spectrum to the red, implying a better light‐harvesting efficiency than regular porphyrin as the absorption spectra of DPP and porphyrin complement one another. Photovoltaic conversion efficiencies accordingly increase from 2.40 to 5.19 %. Interestingly, the best overall efficiency was reached with dye 3, which lacks the powerful donating group in the meso position of the porphyrin core. Optical and electrochemical measurements coupled to time dependent (TD)‐DFT calculations give insight into the deleterious effect of the 4,4′‐dimethoxydiphenylamine unit on the photovoltaic performances, paving the way towards the design of efficient push–pull porphyrin‐based sensitizers. Panoptic porphyrin: We present the synthesis, the electronic properties, the time dependent DFT calculations and the photovoltaic performances of new porphyrin sensitizers in a TiO2 dye‐sensitized solar cell. Porphyrin dyes represent the most efficient sensitizer in DSSC, but they exhibit a weak absorbance around 550 nm. The bichromophoric system presented (see picture) is synthesized by connecting a diketopyrrolopyrrole with a push–pull porphyrin to obtain a real panchromatic dye.</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><pmid>22791585</pmid><doi>10.1002/cssc.201100764</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0001-7289-4160</orcidid><orcidid>https://orcid.org/0000-0003-0006-0815</orcidid><orcidid>https://orcid.org/0000-0002-4217-0708</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Absorption Chemical Sciences Coloring Agents - chemistry Drug Design Electric Power Supplies Electrodes macrocycles Models, Molecular Molecular Conformation nanoparticles Organic chemistry Porphyrins - chemical synthesis Porphyrins - chemistry Pyrrolidinones - chemistry Quantum Theory semiconductors sensitizers Solar Energy Titanium - chemistry zinc
title	Diketopyrrolopyrrole-Porphyrin Conjugates as Broadly Absorbing Sensitizers for Dye-Sensitized Solar Cells
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