Long-term stability in perovskite solar cells through atomic layer deposition of tin oxide

Long-term stability in perovskite solar cells through atomic layer deposition of tin oxide

Robust contact schemes that boost stability and simplify the production process are needed for perovskite solar cells (PSCs). We codeposited perovskite and hole-selective contact while protecting the perovskite to enable deposition of SnO /Ag without the use of a fullerene. The SnO , prepared throug...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2024-10, Vol.386 (6718), p.187-192
Hauptverfasser: Gao, Danpeng, Li, Bo, Liu, Qi, Zhang, Chunlei, Yu, Zexin, Li, Shuai, Gong, Jianqiu, Qian, Liangchen, Vanin, Francesco, Schutt, Kelly, Davis, Melissa A, Palmstrom, Axel F, Harvey, Steven P, Long, Nicholas J, Luther, Joseph M, Zeng, Xiao Cheng, Zhu, Zonglong
Format: Artikel
Sprache:eng
Schlagworte:
Atomic layer epitaxy
Electron transport
Energy conversion efficiency
Fullerenes
Maximum power
Perovskites
Photovoltaic cells
Solar cells
Stability
Tin oxide
Tin oxides
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Zusammenfassung:Robust contact schemes that boost stability and simplify the production process are needed for perovskite solar cells (PSCs). We codeposited perovskite and hole-selective contact while protecting the perovskite to enable deposition of SnO /Ag without the use of a fullerene. The SnO , prepared through atomic layer deposition, serves as a durable inorganic electron transport layer. Tailoring the oxygen vacancy defects in the SnO layer led to power conversion efficiencies (PCEs) of >25%. Our devices exhibit superior stability over conventional p-i-n PSCs, successfully meeting several benchmark stability tests. They retained >95% PCE after 2000 hours of continuous operation at their maximum power point under simulated AM1.5 illumination at 65°C. Additionally, they boast a certified lifetime exceeding 1000 hours.
ISSN:0036-8075
1095-9203
1095-9203
DOI:10.1126/science.adq8385