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Pseudo-bilayer architecture enables high-performance organic solar cells with enhanced exciton diffusion length

Kui Jiang, Jie Zhang, Zhengxing Peng, Francis Lin, Shengfan Wu, Zhen Li, Yuzhong Chen, He Yan, Harald Ade, Zonglong Zhu, Alex K.‐Y. Jen

2021Nature Communications225 citationsDOIOpen Access PDF

Abstract

Solution-processed organic solar cells (OSCs) are a promising candidate for next-generation photovoltaic technologies. However, the short exciton diffusion length of the bulk heterojunction active layer in OSCs strongly hampers the full potential to be realized in these bulk heterojunction OSCs. Herein, we report high-performance OSCs with a pseudo-bilayer architecture, which possesses longer exciton diffusion length benefited from higher film crystallinity. This feature ensures the synergistic advantages of efficient exciton dissociation and charge transport in OSCs with pseudo-bilayer architecture, enabling a higher power conversion efficiency (17.42%) to be achieved compared to those with bulk heterojunction architecture (16.44%) due to higher short-circuit current density and fill factor. A certified efficiency of 16.31% is also achieved for the ternary OSC with a pseudo-bilayer active layer. Our results demonstrate the excellent potential for pseudo-bilayer architecture to be used for future OSC applications.

Topics & Concepts

BilayerOrganic solar cellExcitonHeterojunctionMaterials sciencePolymer solar cellOptoelectronicsEnergy conversion efficiencyActive layerPhotovoltaic systemTernary operationNanotechnologyLayer (electronics)ChemistryCondensed matter physicsMembranePhysicsPolymerComputer scienceElectrical engineeringComposite materialEngineeringBiochemistryThin-film transistorProgramming languageOrganic Electronics and PhotovoltaicsPerovskite Materials and ApplicationsConducting polymers and applications
Pseudo-bilayer architecture enables high-performance organic solar cells with enhanced exciton diffusion length | Litcius