In recent times, organic and perovskite solar cells (OSCs and PSCs) has garnered considerable attention due to the rapid advancement of their impressive photovoltaic performance, achieving power conversion efficiencies exceeding 19 % and 26 %, respectively. Various industrially scalable methods such as blade coating, spray coating, and slot-die coating have been employed to manufacture these promising solar cells, yet the efficiency of devices produced by these methods tends to be lower than those prepared in laboratory scales. To create pinhole-free and high-quality active layer in scalable devices, controlling the crystallization process is required. Therefore, the quality of the active layers plays a pivotal role in constructing efficient and stable solar cells. Among the scalable methods, the slot-die coating method is emerged as particularly attractive for large-scale and cost-effective production of both OSCs and PSCs. Thus, in the current work, we present the strategies to control the morphology of organic and perovskite films prepared by slot-die coating method, such as drying conditions, precursor engineering, solvent engineering, surface modification, and additive engineering, temperature controlling, sequential processing, and ternary blends. Also, the effect of slot-die-coated charge trasportlayers on the OSC and PSC efficiencies and stabilities has been investigatedtransport. Finally, the challenges and potential of commercialization of these promising solar cells, improving their efficiency, quality, and sustainability in the future, are discussed.

Keshavarzi, R., Hajisharifi, F., Saki, Z., Omrani, M., Sheibani, R., Afzali, N., et al. (2025). Organic and perovskite solar cells based on scalable slot-die coating technique: progress and challenges. NANO TODAY, 61 [10.1016/j.nantod.2024.102600].

Organic and perovskite solar cells based on scalable slot-die coating technique: progress and challenges

Vesce, Luigi
;
Di Carlo, Aldo
2025-01-01

Abstract

In recent times, organic and perovskite solar cells (OSCs and PSCs) has garnered considerable attention due to the rapid advancement of their impressive photovoltaic performance, achieving power conversion efficiencies exceeding 19 % and 26 %, respectively. Various industrially scalable methods such as blade coating, spray coating, and slot-die coating have been employed to manufacture these promising solar cells, yet the efficiency of devices produced by these methods tends to be lower than those prepared in laboratory scales. To create pinhole-free and high-quality active layer in scalable devices, controlling the crystallization process is required. Therefore, the quality of the active layers plays a pivotal role in constructing efficient and stable solar cells. Among the scalable methods, the slot-die coating method is emerged as particularly attractive for large-scale and cost-effective production of both OSCs and PSCs. Thus, in the current work, we present the strategies to control the morphology of organic and perovskite films prepared by slot-die coating method, such as drying conditions, precursor engineering, solvent engineering, surface modification, and additive engineering, temperature controlling, sequential processing, and ternary blends. Also, the effect of slot-die-coated charge trasportlayers on the OSC and PSC efficiencies and stabilities has been investigatedtransport. Finally, the challenges and potential of commercialization of these promising solar cells, improving their efficiency, quality, and sustainability in the future, are discussed.
2025
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore ING-INF/01
Settore FIS/03
Settore PHYS-03/A - Fisica sperimentale della materia e applicazioni
Settore IINF-01/A - Elettronica
English
Organic solar cell
Perovskite solar cell
Slot-die coating
Upscaling
Keshavarzi, R., Hajisharifi, F., Saki, Z., Omrani, M., Sheibani, R., Afzali, N., et al. (2025). Organic and perovskite solar cells based on scalable slot-die coating technique: progress and challenges. NANO TODAY, 61 [10.1016/j.nantod.2024.102600].
Keshavarzi, R; Hajisharifi, F; Saki, Z; Omrani, M; Sheibani, R; Afzali, N; Abdi-Jalebi, M; Vesce, L; Di Carlo, A
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/398063
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