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Heterogeneity of Light-Induced Open-Circuit Voltage Loss in Perovskite/Si Tandem Solar Cells

Zhiwei Tao, Teng Lü, Xiang Gao, Mathias Uller Rothmann, Yang Jiang, Ziyue Qiang, Hong‐Qiang Du, Guo Chang, Long-Hui Yang, Caixia Wang, Yun Liu, Yi‐Bing Cheng, Wei Li

2024ACS Energy Letters26 citationsDOI

Abstract

Mixed-halide perovskite-silicon tandem solar cells have demonstrated great potential in achieving >40% efficiencies. However, light-induced phase segregation makes the commercialization of mixed-halide perovskite-silicon tandem solar cells difficult. Here, we unveil the impact of phase segregation in the 1.67 eV bandgap Cs 0.17 FA 0.83 Pb(I 0.80 Br 0.20 ) 3 on the nanoscopic heterogeneity across the film through photoconductive atomic force microscopy. By measuring I – V curves at both grain boundaries (GBs) and grain interiors (GIs) with nanoscopic resolution, we identified that iodide-rich phases primarily segregate at defect-enriched GBs under continuous illumination, causing a more significant local open-circuit voltage ( V OC ) decrease than GIs. It also results in short-circuit current density and fill factor losses in both single-junction and perovskite/silicon tandem devices after extended illumination. We show that introducing fluorophenylethylammonium iodide (FPEAI) during film fabrication improves device performance and light stability by suppressing phase segregation and passivating defects, thus preventing GB decreases in V OC and macroscopic device performance losses.

Topics & Concepts

Perovskite (structure)TandemMaterials scienceGrain boundarySiliconOpen-circuit voltageOptoelectronicsBand gapNanoscopic scaleFabricationNanotechnologyVoltageChemistryCrystallographyComposite materialMicrostructureElectrical engineeringAlternative medicinePathologyMedicineEngineeringPerovskite Materials and ApplicationsConducting polymers and applicationsChalcogenide Semiconductor Thin Films
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