材料科学
钇
钙钛矿(结构)
兴奋剂
能量转换效率
纳米技术
氧化物
光电子学
沉积(地质)
化学工程
冶金
古生物学
沉积物
工程类
生物
作者
Sashil Chapagain,Blake Martin,Peter J. Armstrong,Craig L. Perkins,Matthew O. Reese,Thad Druffel,Craig A. Grapperhaus
标识
DOI:10.1021/acsaem.2c03720
摘要
Solution processing of flexible perovskite solar cells (f-PSCs) provides an avenue for scalable, high-throughput printing of lightweight, scalable, and cost-effective flexible solar cells. However, the deposition of fully solution-processed metal oxide charge transport layers on perovskites has been limited by solvent incompatibilities and high processing temperatures for metal oxide nanoparticles. In this study, we present high-performance, inverted f-PSCs from the direct deposition of yttrium-doped SnO 2 nanoparticles functionalized with acetate on top of perovskite as an ink in anhydrous ethanol via blade coating. Yttrium doping improved device performance by improving the charge extraction with a decreased series resistance leading to improvements in the open-circuit voltage and fill factor. The champion power conversion efficiency for 0.1 cm 2 devices increased from 14.3% for undoped SnO 2 to 16.5% with 2% Y:SnO 2 doping, which is unprecedented for f-PSCs on ITO-PET substrates employing SnO 2 as an ETL.
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