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Thermal Activation of PEDOT:PSS/PM6:Y7 Based Films Leads to Unprecedent High Short‐Circuit Current Density in Nonfullerene Organic Photovoltaics

Enas Moustafa, María Méndez, José G. Sánchez, J. Pallarès, Emilio Palomares, Lluı́s F. Marsal

2022Advanced Energy Materials32 citationsDOIOpen Access PDF

Abstract

Abstract Finding an effective approach to suppress trap formation is a potential route for enhancing the performance of nonfullerene organic photovoltaic (NF‐OPVs) devices. Here, an extraordinary short‐circuit current density ( J SC ) value of 32.65 mA cm ‐2 is achieved, higher than the state‐of‐the art NF‐OPVs reported, reaching a high power conversion efficiency (PCE) of 17.92%. This remarkable enhancement is exhibited through the fine‐tuning of PEDOT:PSS/PM6:Y7 films and interface morphologies via applying the prethermal treatment approach (Pre‐TT) to the devices, which exhibit J SC and PCE enhancement of 21% and 8%, respectively, compared to the pristine devices. Accordingly, the dependence of the J SC upon the Pre‐TT approach through a range of morphological, optical, electrical, and advanced transient measurements is investigated. The Pre‐TT‐based films are found to possess optimal smooth blend morphology with better dispersity owing to reduced domain size. Moreover, the measurements show that the optimized treated devices present higher exciton dissociation probabilities and generation rate of the free charge carriers, showing an ideal balanced electron/hole mobility that reveals the J SC and PCE enhancement. Hence, Pre‐TT approach provides a facile passivation strategy that reduces the trap state density of the blend film, improves interface charge transfer, allows balanced electron/hole mobility, and thus promotes device performance.

Topics & Concepts

Materials sciencePEDOT:PSSOrganic solar cellEnergy conversion efficiencyDispersityElectron mobilityOptoelectronicsPassivationCurrent densityPolymer solar cellCharge carrierPhotovoltaicsNanotechnologyPhotovoltaic systemPolymerPolymer chemistryElectrical engineeringEngineeringQuantum mechanicsComposite materialLayer (electronics)PhysicsOrganic Electronics and PhotovoltaicsConducting polymers and applicationsPerovskite Materials and Applications