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Alternative title: 分子不動態化によるワイドバンドギャップ錫ペロブスカイト太陽電池の欠陥の調節

Description:

Perovskite-based tandem photovoltaic (PV) devices show promise for surpassing single-junction efficiency limits. However, the use of toxic lead in perovskites hampers their application in silicon or perovskite/perovskite tandem structures. Addressing lead toxicity is crucial for these advanced solar cells' commercial viability and environmental safety. Researchers are developing lead-free alternatives, such as tin-based perovskites, to overcome this challenge.
Tin perovskite could be an alternative to be compiled as subcells in tandem structure. Herein, we present the fabrication of lead-free, wide band gap Sn-based halide perovskite, an optimal candidate for top cell applications. The WB-Sn-HP perovskite solar cells (PSCs) achieved a promising power conversion efficiency (PCE) of over 11% using ASnI2Br perovskite, enhanced by molecular surface passivation with fluorobenzyl derivative. Enhancing device performance hinges on meticulously engineering both the surface and bulk properties of the WB-Sn-HP film through molecular treatment, which benefits from the stronger electrostatic potential and interactions with molecular functionalities. This surface treatment mitigates defect chemistries by adjusting the surface chemistry and interfacial energy. This report will discuss the film growth properties, materials chemistry, and photo-physics correlating with device performance and stability.

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Keyword: Perovskite-based tandem photovoltaic, Wide band gap Sn-perovskite, Molecular functionalities, Molecular treatment, Toxic lead

Conference: PVSEC-35 (2024-11-10 - 2024-11-15)

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Manuscript type: Not a journal article

MDR DOI: https://doi.org/10.48505/nims.5141

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Updated at: 2024-12-12 12:30:29 +0900

Published on MDR: 2024-12-12 12:30:30 +0900