講演情報
[16p-C41-6]Understanding the stability of perovskite solar cells through an adlayer of FAPbI3 quantum dots.
〇Svrcek Vladimir1, Bruno Alessi1, Zhihao Xu1, Calum McDonald1, Takuya Matsui1 (1.AIST Tsukuba)
キーワード:
quantum dots、perovskites、solar cell
To enhance the stability of Formamidinium lead iodide (FAPbI3) hybrid solar cells without compromising efficiency, we propose adding a thin layer of FAPbI3 quantum dots (QDs) (< 100 nm) on bulk FAPbI3 film solar cells. We assess the impact of ligands and fs laser-engineered FAPbI3 QDs on stability and performance. By controlling particle size and transport properties through synthesis and ligand engineering, we increase the energy gap of FAPbI3 QDs. Substituting Octadecene with Octene as the solvent at the same injection temperature improves ligand exchange, resulting in superior optical and transport properties. FAPbI3 QDs with Octene showed better properties in power conversion efficiency, Jsc, and Voc, except for fill factor, which was improved with fs laser treatment. The fs laser-treated FAPbI3 QDs adlayer enhances the stability of the FAPbI3 perovskite layer. Unlike films with a QDs adlayer, all parameters for the FAPbI3 film degraded after storage in the dark and in humid conditions (RH 30 %T=28°C). Our findings show significant stability improvement with the QDs adlayer, especially for fs-treated FAPbI3 QDs, which also broaden the energy gap and act as a passivation layer. The QDs adlayer slows the alpha to delta transition under light soaking in humid conditions, and fs-treated FAPbI3 QDs slow down PbI2 formation.
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