| Literature DB >> 26927416 |
Jurgen Kesters1, Sanne Govaerts1, Geert Pirotte1, Jeroen Drijkoningen2, Michèle Chevrier3,4, Niko Van den Brande5, Xianjie Liu6, Mats Fahlman6, Bruno Van Mele5, Laurence Lutsen1,7, Dirk Vanderzande1,7, Jean Manca8, Sébastien Clément3, Elizabeth Von Hauff9, Wouter Maes1,7.
Abstract
Conjugated polyelectrolyte (CPE) interfacial layers present a powerful way to boost the I-V characteristics of organic photovoltaics. Nevertheless, clear guidelines with respect to the structure of high-performance interlayers are still lacking. In this work, impedance spectroscopy is applied to probe the dielectric permittivity of a series of polythiophene-based CPEs. The presence of ionic pendant groups grants the formation of a capacitive double layer, boosting the charge extraction and device efficiency. A counteracting effect is the diminishing affinity with the underlying photoactive layer. To balance these two effects, we found copolymer structures containing nonionic side chains to be beneficial.Entities:
Keywords: cathode interlayers; conjugated polyelectrolytes; dielectric permittivity; impedance spectroscopy; organic photovoltaics
Year: 2016 PMID: 26927416 DOI: 10.1021/acsami.6b00242
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229