AI Article Synopsis
- Perovskites, due to their tunable bandgap and photoelectric properties, show promise in semitransparent solar cells, but achieving high power conversion efficiencies (PCEs) alongside visible light transmission remains a challenge.
- Developing a strategy called intermediate adduct (IMAT) engineering enhances the film quality of inorganic perovskite CsPbI Br, leading to a significant increase in efficiency and stability.
- The optimized semitransparent perovskite solar cells (ST-PSCs) achieve impressive PCEs of up to 16.02% and perform well at varying levels of average visible transmittance (AVT).
Article Abstract
Thanks to the tunable bandgap and excellent photoelectric characteristics, perovskites have been widely used in semitransparent solar cells (ST-SCs). Most works present unsatisfactory power conversion efficiencies (PCEs) through reducing the thickness of the perovskite films because there is a trade-off between PCE and average visible transmittance (AVT). As a consequence, most PCEs are less than 12% when the AVT is higher than 20% due to the limited voltage (V ) and short-circuit current (J ). Herein, a strategy of intermediate adduct (IMAT) engineering is developed to improve the film quality of the inorganic perovskite CsPbI Br, which is a challenging issue to limit its performance of efficiency and stability. A normal n-i-p-structured PSC based on the optimal CsPbI Br film delivers a PCE of 16.02% with excellent stability. Furthermore, through optimizing the electrode type and interface, the ST-PSC shows a high V larger than 1.2 V and the PCE reaches 14.01% and 10.36% under an AVT of 31.7% and 40.9%, respectively. This is the first demonstration of a CsPbI Br ST-PSC, and it outperforms most of other types of perovskites.
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