Diketopyrrolopyrrole latent pigment-based bilayer solar cells

Diketopyrrolopyrrole latent pigment-based bilayer solar cells

Two Diketopyrrolopyrrole based latent pigment donor materials were fabricated into thin film bilayer photovoltaic devices featuring PCBM as the acceptor. Thermal deprotection of the thin film, carried out at 200∘ C, returns the dye-like small molecule to the corresponding pristine pigment quantitati...

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Main Authors: Beverina Luca, Rooney Myles, Ruffo Riccardo, Sassi Mauro, Carulli Francesco, Luzzati Silvia, Resel Roland, Schrode Benedikt
Format: Article
Language:English
Published: De Gruyter 2018-12-01
Series:Organic Photonics and Photovoltaics
Online Access:https://doi.org/10.1515/oph-2018-0002
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spelling doaj-8c32a892b8954884808091ed459b65e72021-09-22T06:13:17ZengDe GruyterOrganic Photonics and Photovoltaics 2299-31772018-12-016181610.1515/oph-2018-0002oph-2018-0002Diketopyrrolopyrrole latent pigment-based bilayer solar cellsBeverina Luca0Rooney Myles1Ruffo Riccardo2Sassi Mauro3Carulli Francesco4Luzzati Silvia5Resel Roland6Schrode Benedikt7Department of Materials Science, University of Milano, Via R. Cozzi,Milano, ItalyDepartment of Materials Science, University of Milano, Via R. Cozzi,Milano, ItalyDepartment of Materials Science, University of Milano, Via R. Cozzi,Milano, ItalyDepartment of Materials Science, University of Milano, Via R. Cozzi,Milano, ItalyISMAC-CNR, Via Corti,Milano, ItalyISMAC-CNR, Via Corti,Milano, ItalyInstitute of Solid State Physics, Graz University of Technology,Graz, AustriaInstitute of Solid State Physics, Graz University of Technology,Graz, AustriaTwo Diketopyrrolopyrrole based latent pigment donor materials were fabricated into thin film bilayer photovoltaic devices featuring PCBM as the acceptor. Thermal deprotection of the thin film, carried out at 200∘ C, returns the dye-like small molecule to the corresponding pristine pigment quantitatively. The connected evolution of electrical and morphological features of pure thin films and blends are examined. A significant decrease in extinction coefficient was noted and correlated both to intrinsic changes of the electronic structure upon cleavage and to an increase in internal scattering due to extensive crystallization. Power conversion efficiencies of 0.33% were achieved for bilayer devices, nearly doubling previous results with latent pigment DPP devices, under comparable experimental conditions.https://doi.org/10.1515/oph-2018-0002
collection DOAJ
language English
format Article
sources DOAJ
author Beverina Luca
Rooney Myles
Ruffo Riccardo
Sassi Mauro
Carulli Francesco
Luzzati Silvia
Resel Roland
Schrode Benedikt
spellingShingle Beverina Luca
Rooney Myles
Ruffo Riccardo
Sassi Mauro
Carulli Francesco
Luzzati Silvia
Resel Roland
Schrode Benedikt
Diketopyrrolopyrrole latent pigment-based bilayer solar cells
Organic Photonics and Photovoltaics
author_facet Beverina Luca
Rooney Myles
Ruffo Riccardo
Sassi Mauro
Carulli Francesco
Luzzati Silvia
Resel Roland
Schrode Benedikt
author_sort Beverina Luca
title Diketopyrrolopyrrole latent pigment-based bilayer solar cells
title_short Diketopyrrolopyrrole latent pigment-based bilayer solar cells
title_full Diketopyrrolopyrrole latent pigment-based bilayer solar cells
title_fullStr Diketopyrrolopyrrole latent pigment-based bilayer solar cells
title_full_unstemmed Diketopyrrolopyrrole latent pigment-based bilayer solar cells
title_sort diketopyrrolopyrrole latent pigment-based bilayer solar cells
publisher De Gruyter
series Organic Photonics and Photovoltaics
issn 2299-3177
publishDate 2018-12-01
description Two Diketopyrrolopyrrole based latent pigment donor materials were fabricated into thin film bilayer photovoltaic devices featuring PCBM as the acceptor. Thermal deprotection of the thin film, carried out at 200∘ C, returns the dye-like small molecule to the corresponding pristine pigment quantitatively. The connected evolution of electrical and morphological features of pure thin films and blends are examined. A significant decrease in extinction coefficient was noted and correlated both to intrinsic changes of the electronic structure upon cleavage and to an increase in internal scattering due to extensive crystallization. Power conversion efficiencies of 0.33% were achieved for bilayer devices, nearly doubling previous results with latent pigment DPP devices, under comparable experimental conditions.
url https://doi.org/10.1515/oph-2018-0002
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