Perovskite solar cells (PSCs) have attracted tremendous attention because of their rapidly growing efficiency and low cost. However, the efficiency of scalably deposited PSCs, especially spray-coated devices, is still lagging far behind that of spin-coated devices because of the complicated crystallization of coated precursor ink. Here, we show a precursor ink with an ultrawide processing window (more than 40 min) for spray-coating by adjusting the precursor component, which benefits the scalable deposition of perovskite films. Coupled with antisolvent extraction and addition of methylamine chloride to perovskite ink, high-quality perovskite films were achieved with large-scale uniformity. A power conversion efficiency (PCE) of 18.5% for rigid sprayed PSCs and 16.15% for flexible sprayed PSCs were achieved. At the square-centimeter level, sprayed PSCs on rigid and flexible substrates were achieved with PCEs of 15.07 and 13.21%, respectively. The one-step single-pass spraying method for versatility substrates at a deposition rate of 540 m h brings great prospects for commercialization of PSCs.
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