Litcius/Paper detail

Effects of the diphenyl ether additive in halogen-free processed non-fullerene acceptor organic solar cells

Lorenzo Di Mario, David Garcia Romero, Meike J. Pieters, Fabian Eller, Chenhui Zhu, Giovanni Bongiovanni, Eva M. Herzig, Andrea Mura, Maria Antonietta Loi

2023Journal of Materials Chemistry A43 citationsDOIOpen Access PDF

Abstract

-xylene, to fabricate organic solar cells with a completely halogen-free process. Thanks to the addition of DPE, a best efficiency of 11.7% have been obtained for the system TPD-3F:IT-4F, an increase over 15% with respect to the efficiency of devices fabricated without additive. Remarkably, the stability under illumination of the solar cells is also improved when DPE is used. The addition of DPE has effects on the molecular organization in the active layer, with an enhancement in the donor polymer ordering, showing a higher domain purity. The resulting structure improves the charge carrier collection, leading to a superior short-circuit current and fill factor. Furthermore, a reduction of the non-radiative recombination losses and an improved exciton diffusion, are the results of the superior molecular ordering. With a comprehensive insight of the effects of DPE when used in combination with a non-halogenated solvent, our study provides an approach to make the fabrication of organic solar cell environmentally friendlier and more suitable for large scale production.

Topics & Concepts

Active layerPhotoactive layerFullereneMaterials scienceOrganic solar cellAcceptorChemical engineeringPolymer solar cellSolar cellNanostructureHalogenNanotechnologyLayer (electronics)PolymerOrganic chemistryChemistryAlkylOptoelectronicsCondensed matter physicsThin-film transistorEngineeringPhysicsComposite materialOrganic Electronics and PhotovoltaicsConducting polymers and applicationsNanowire Synthesis and Applications