Hilal Aybike Can, Daniel Anthony Jacobs, Nicolas Fürst, Christophe Ballif and Christian Michael Wolff
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引用次数: 0
Abstract
The fine-tuning of halide perovskite materials for both performance and stability calls for innovative tools that streamline high-throughput experimentation. Here, we present two complementary systems designed to accelerate the development of solution-processed thin-film semiconductors. HITSTA (High-Throughput Stability Testing Apparatus) is a robust, cost-effective platform for optical characterization and accelerated aging, built around a repurposed 3D printer. It accommodates up to 49 thin-film samples, subjecting them to temperatures up to 110 °C and light intensities of 2.2 suns while continuously monitoring their absorptance and photoluminescence. ROSIE (Robotic Operating System for Ink Engineering) is a liquid-handling robot constructed from a hobbyist robotic arm and a syringe pump, enabling precise and automated ink formulation. We detail the design and operation of both systems, providing guidelines for their replication. To demonstrate their capabilities, we present a case study in which ROSIE and HITSTA are used to investigate the aging of mixed-cation, mixed-halide inorganic perovskites. Together, these systems form a powerful toolkit for accelerating the optimization of solution-processable thin-films via high-throughput experimentation.
卤化物钙钛矿材料的性能和稳定性的微调需要创新的工具来简化高通量实验。在这里,我们提出了两个互补的系统,旨在加速溶液加工薄膜半导体的发展。HITSTA(高通量稳定性测试仪器)是一个强大的,具有成本效益的光学表征和加速老化平台,建立在一个改造的3D打印机上。它可容纳多达49个薄膜样品,将其置于高达110°C的温度和2.2太阳的光强度下,同时连续监测它们的吸收和光致发光。ROSIE (robot Operating System for Ink Engineering)是一款液体处理机器人,由一个机械臂和一个注射器泵组成,可以实现精确和自动化的墨水配方。我们详细介绍了这两个系统的设计和操作,为它们的复制提供了指导方针。为了证明它们的能力,我们提出了一个案例研究,其中使用ROSIE和HITSTA来研究混合阳离子,混合卤化物无机钙钛矿的老化。总之,这些系统形成了一个强大的工具包,通过高通量实验加速优化溶液可加工薄膜。
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