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Flexible All‐Solution‐Processed Organic Solar Cells with High‐Performance Nonfullerene Active Layers

Lulu Sun, Wenwu Zeng, Cong Xie, Lin Hu, Xinyun Dong, Fei Qin, Wen Wang, Tiefeng Liu, Xueshi Jiang, Youyu Jiang, Yinhua Zhou

2020Advanced Materials175 citationsDOI

Abstract

Abstract All‐solution‐processed organic solar cells (from the bottom substrate to the top electrode) are highly desirable for low‐cost and ubiquitous applications. However, it is still challenging to fabricate efficient all‐solution‐processed organic solar cells with a high‐performance nonfullerene (NF) active layer. Issues of charge extraction and wetting are persistent at the interface between the nonfullerene active layer and the printable top electrode (PEDOT:PSS). In this work, efficient all‐solution‐processed NF organic solar cells (from the bottom substrate to the top electrode) are reported via the adoption of a layer of hydrogen molybdenum bronze (H X MoO 3 ) between the active layer and the PEDOT:PSS. The dual functions of H X MoO 3 include: 1) its deep Fermi level of −5.44 eV can effectively extract holes from the active layer; and 2) the wetting issues of the PEDOT:PSS on the hydrophobic surface of the NF active layer can be solved. Importantly, fine control of the H X MoO 3 composition during the synthesis is critical in obtaining processing orthogonality between H X MoO 3 and the PEDOT:PSS. Flexible all‐solution‐processed NF organic solar cells with power conversion efficiencies of 11.9% and 10.3% are obtained for solar cells with an area of 0.04 and 1 cm 2 , respectively.

Topics & Concepts

PEDOT:PSSMaterials scienceOrganic solar cellActive layerWettingLayer (electronics)ElectrodeSubstrate (aquarium)Energy conversion efficiencyChemical engineeringOptoelectronicsPolymer solar cellNanotechnologyComposite materialPolymerChemistryPhysical chemistryThin-film transistorOceanographyEngineeringGeologyOrganic Electronics and PhotovoltaicsConducting polymers and applicationsPerovskite Materials and Applications
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