New quinoxaline and pyridopyrazine-based polymers for solution-processable photovoltaics
Journal article, 2012

The recently published quinoxaline/thiophene-based polymer TQ1 has been modified on its acceptor unit, either altering the acceptor strength by incorporating a pyridopyrazine, substitution of the acceptor-hydrogens by fluorine, or substitution of the alkoxy side chain by alkyl. The changes in physical, electronic and device properties are discussed. For the polymers incorporating the stronger acceptors a decreased performance is found, where in both cases the current in the devices is compromised. Incorporation of the pyridopyrazine-based acceptor seems to result in more severe or additional loss mechanisms compared to the polymer that incorporates the fluorine atoms. A similar performing material is obtained when changing the alkoxy side chain in TQ1 to an alkyl, where the solar cell performance is mainly improved on the fill factor. It is demonstrated that the standard TQ1 structure is easily modified in a number of ways, showing the versatility and robustness of the standard TQ1 structure and synthesis.

performance

Conjugated polymers

Organic electronics

bandgap polymers

charge-transfer states

photogeneration

open-circuit

films

Photovoltaic devices

Solar cells

blends

voltage

Polymeric materials

molecular-weight

heterojunction solar-cells

fullerene

Author

Renee Kroon

Chalmers, Chemical and Biological Engineering, Polymer Technology

R. Gehlhaar

Interuniversity Micro-Electronics Center at Leuven

Timothy Steckler

Chalmers, Chemical and Biological Engineering, Polymer Technology

Patrik Henriksson

Chalmers, Chemical and Biological Engineering, Polymer Technology

Christian Müller

Chalmers, Chemical and Biological Engineering, Polymer Technology

J. Bergqvist

Linköping University

A. Hadipour

Interuniversity Micro-Electronics Center at Leuven

P. Heremans

Interuniversity Micro-Electronics Center at Leuven

Mats Andersson

Chalmers, Chemical and Biological Engineering, Polymer Technology

Solar Energy Materials and Solar Cells

0927-0248 (ISSN)

Vol. 105 280-286

Subject Categories

Chemical Sciences

DOI

10.1016/j.solmat.2012.06.029

More information

Latest update

2/28/2018