钙钛矿(结构)
纳米技术
丝网印刷
制作
材料科学
卷到卷处理
串联
沉积(地质)
计算机科学
工程物理
领域(数学)
光伏系统
薄膜
光电子学
喷墨打印
介孔材料
新兴技术
化学浴沉积
作者
Wenchen Pan,Xinsheng Tang,Xl Hu,Pengju Guo,Shangshang Chen
摘要
Screen printing, a technology that deposits films in a dotted line connection, plays a pivotal role in advancing the transition of perovskite solar cells (PSCs) from laboratory research to large-scale industrial production for its simple operation and great material conservation. However, the manipulation of perovskite inks remains challenging during screen printing, as the underlying dynamic mechanisms are affected by various factors such as viscosity, solid content, thixotropy, drying time, and rheology, which call for in-depth investigation. Previous research also reveals certain limitations in the devices, including incomplete contact between the perovskite precursor solution and the scaffold, as well as the coffee ring effect. This review provides a comprehensive summary of the application of screen printing in the preparation of charge transport layers, perovskite active layers, and electrodes, which present challenges faced in the field of printed mesoporous PSCs, flexible PSCs, perovskite/c-Si tandem cells, and perovskite solar modules. Furthermore, this review summarizes the overarching trends and presents the emerging insights from the latest research. Finally, it is demonstrated that screen printing exhibits substantial potential for the low-cost fabrication of PSCs, especially when integrated with complementary technologies such as roll-to-roll manufacturing, automated robotic mesh deposition technique, and other relevant processes.
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