Issue 3, 2016
From the journal:

Journal of Materials Chemistry A

A direct arylation approach towards efficient small molecule organic solar cells

Julija Kudrjasova,ab   Jurgen Kesters,ac   Pieter Verstappen,a   Jeroen Brebels,a   Tim Vangerven,c   Ilaria Cardinaletti,c   Jeroen Drijkoningen,c   Huguette Penxten,a   Jean Manca,d   Laurence Lutsen,b   Dirk Vanderzandeab  and  Wouter Maes*ab  

* Corresponding authors

a Design & Synthesis of Organic Semiconductors (DSOS), Institute for Materials Research (IMO-IMOMEC), Hasselt University, Universitaire Campus, Agoralaan 1-Building D, B-3590 Diepenbeek, Belgium
E-mail: wouter.maes@uhasselt.be

b IMEC, IMOMEC, Universitaire Campus, Wetenschapspark 1, B-3590 Diepenbeek, Belgium

c Materials Physics Division, Institute for Materials Research (IMO-IMOMEC), Hasselt University, Universitaire Campus, Wetenschapspark 1, B-3590 Diepenbeek, Belgium

d X-LaB, Hasselt University, Universitaire Campus, Agoralaan 1-Building D, B-3590 Diepenbeek, Belgium

Abstract

Three extended molecular chromophores, differing in their central acceptor moiety and specifically designed as electron donor components for small molecule organic solar cells, are synthesized via a two-fold C–H arylation protocol. Upon removal of the side products inherent to the applied direct (hetero)arylation procedure, a record power conversion efficiency of 5.1% is achieved.

Graphical abstract: A direct arylation approach towards efficient small molecule organic solar cells

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Article information

DOI
https://doi.org/10.1039/C5TA09023G
Article type
Communication
Submitted
08 Nov 2015
Accepted
04 Dec 2015
First published
07 Dec 2015
This article is Open Access
Creative Commons BY-NC license

J. Mater. Chem. A, 2016,4, 791-795

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A direct arylation approach towards efficient small molecule organic solar cells

J. Kudrjasova, J. Kesters, P. Verstappen, J. Brebels, T. Vangerven, I. Cardinaletti, J. Drijkoningen, H. Penxten, J. Manca, L. Lutsen, D. Vanderzande and W. Maes, J. Mater. Chem. A, 2016, 4, 791 DOI: 10.1039/C5TA09023G

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