Autonomous Control of Ion Migration at α‐FAPbI<sub>3</sub> Heterointerfaces via Interfacial‐Self‐Assembled 2D Perovskite

Kim, Jihyun; Park, Ji‐Sang; Kim, Gee Yeong; Jo, William

doi:10.1002/aenm.202402117

Advanced Energy Materials

2024

DOI: 10.1002/aenm.202402117

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Autonomous Control of Ion Migration at α‐FAPbI₃ Heterointerfaces via Interfacial‐Self‐Assembled 2D Perovskite

Jihyun Kim,

Ji‐Sang Park,

Gee Yeong Kim

et al.

Abstract: Harmonizing homogeneity in charge distribution within metal halide perovskite solar cells is essential for maintaining device quality. The adsorption of ions from perovskites onto the electron transport layer leads to the creation of redistributed space‐charge regions (SCR), which facilitate halide segregation and ionic migration, resulting in charge imbalances and diminished extraction capability at the interface. The research examines the intricate interplay between SCRs affecting iodide oxidation and their … Show more

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Effect of Guanidinium Salt for Stress‐Relaxation and Interfacial Engineering in Antisolvent Free Perovskite Solar Cells Fabricated Under Air Ambient

Porwal,

Bansal,

Kim

et al. 2024

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In perovskite solar cells, the presence of stress and defects at interfaces promotes performance degradation and poor stability of the devices. The formation of these defects is more prominent in two‐step antisolvent‐free perovskite film fabrication. This study addresses these challenges by introducing guanidine sulfate (Gua‐S) at the tin oxide/formamidinium lead iodide perovskite interface, fabricated without antisolvent under ambient air. Interfacial Gua‐S enhanced morphology by forming bonds between uncoordinated Pb2+ ions and I− vacancies at the interface and showed improvement in the crystallinity and quality of the perovskite film. Microstructural stress analysis indicated a substantial reduction in stress, decreasing from 50.6 to 20.72 MPa with the application of Gua‐S. Moreover, the Gua‐S treated solar cells showed significant improvements and achieved an open circuit voltage of 1.08 V and 22.34% efficiency. Further, electrochemical impedance spectroscopic analysis showed improved built‐in potential, carrier lifetime, and charge recombination lifetime for treated devices. The devices retained over 87% of the initial power conversion efficiency after 2000 hours of operation. This comprehensive study addresses the fundamental issues of interfacial stress and defects in perovskite solar cells and demonstrates the efficacy of Gua‐S salt in enhancing both the structural and functional aspects of the antisolvent‐free device fabrication process.

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Effect of Guanidinium Salt for Stress‐Relaxation and Interfacial Engineering in Antisolvent Free Perovskite Solar Cells Fabricated Under Air Ambient

Porwal,

Bansal,

Kim

et al. 2024

Small

View full text Add to dashboard Cite

show abstract

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Autonomous Control of Ion Migration at α‐FAPbI₃ Heterointerfaces via Interfacial‐Self‐Assembled 2D Perovskite

Cited by 1 publication

References 44 publications

Effect of Guanidinium Salt for Stress‐Relaxation and Interfacial Engineering in Antisolvent Free Perovskite Solar Cells Fabricated Under Air Ambient

Effect of Guanidinium Salt for Stress‐Relaxation and Interfacial Engineering in Antisolvent Free Perovskite Solar Cells Fabricated Under Air Ambient

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Autonomous Control of Ion Migration at α‐FAPbI3 Heterointerfaces via Interfacial‐Self‐Assembled 2D Perovskite

Cited by 1 publication

References 44 publications

Effect of Guanidinium Salt for Stress‐Relaxation and Interfacial Engineering in Antisolvent Free Perovskite Solar Cells Fabricated Under Air Ambient

Effect of Guanidinium Salt for Stress‐Relaxation and Interfacial Engineering in Antisolvent Free Perovskite Solar Cells Fabricated Under Air Ambient

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Autonomous Control of Ion Migration at α‐FAPbI₃ Heterointerfaces via Interfacial‐Self‐Assembled 2D Perovskite