Open-air spray deposition of PCBM/BCP electron transport layer for inverted perovskite solar cells

IF 17.5 1区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Matter Pub Date : 2025-03-05 Epub Date: 2025-02-17 DOI:10.1016/j.matt.2025.101990

Justin P. Chen , Thomas W. Colburn , Juliet Risner-Jamtgaard , Arturas Vailionis , Andrew Barnum , Margarita Golding , Abigail Carbone , Austin C. Flick , Reinhold H. Dauskardt

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Abstract

A [6,6]-phenyl C₆₁ butyric acid methyl ester (PCBM) and bathocuproine (BCP) electron transport layer (ETL) is spray deposited in open air directly on top of a perovskite at linear speeds of 9 m/min. The PCBM precursor ink contains a binary mixture of 1:1 chlorobenzene:chloroform, which optimizes spray wettability on the perovskite surface and allows quick solvent evaporation. A near-infrared heating module additionally provides a flash cure (<5 s) for the formation of smooth, large-area PCBM films (∼20 cm²). A BCP solution in isopropanol is subsequently sprayed to form an ultrathin (<5 nm) film and characterized with a suite of high-resolution metrologies. The spray-deposition processing and near-infrared treatment do not damage the underlying perovskite. Inverted architecture devices containing the sprayed ETL achieve a champion efficiency of 20.3% and demonstrate stable performance without additional interlayers or surface treatments. The technoeconomic cost of the open-air spray process is compared against traditional vacuum-based evaporation, resulting in a decrease in manufacturing costs by 26%.

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倒置钙钛矿太阳能电池中PCBM/BCP电子传输层的露天喷涂沉积

A[6,6]-苯基C61丁酸甲酯（PCBM）和酞菁（BCP）电子传输层（ETL）以9 m/min的线速度在露天直接喷涂在钙钛矿上。PCBM前驱体油墨含有1:1氯苯：氯仿的二元混合物，优化了钙钛矿表面的喷雾润湿性，并允许溶剂快速蒸发。近红外加热模块还提供闪光固化（< 5s），以形成光滑的大面积PCBM薄膜（~ 20 cm2）。随后，在异丙醇中喷洒BCP溶液，形成超薄（5纳米）薄膜，并使用一套高分辨率计量方法进行表征。喷涂沉积工艺和近红外处理对底层钙钛矿没有破坏作用。包含喷涂ETL的倒置结构器件实现了20.3%的冠军效率，并且在没有额外中间层或表面处理的情况下表现出稳定的性能。与传统的真空蒸发相比，露天喷雾工艺的技术经济成本降低了26%。

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来源期刊

Matter MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

26.30

自引率

2.60%

发文量

367

期刊介绍： Matter, a monthly journal affiliated with Cell, spans the broad field of materials science from nano to macro levels,covering fundamentals to applications. Embracing groundbreaking technologies,it includes full-length research articles,reviews, perspectives,previews, opinions, personnel stories, and general editorial content. Matter aims to be the primary resource for researchers in academia and industry, inspiring the next generation of materials scientists.