Suppression of Stacking Faults for Stable Formamidinium-Rich Perovskite Absorbers

IF 26.8 1区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Mostafa Othman, Lorenzo Agosta, Quentin Jeangros, Anaël Jaffrès, Sandra Jenatsch, Virginia Carnevali, Nikolaos Lempesis, Vladislav Slama, Julian A. Steele, Rui Zhang, Eduardo Solano, Guiseppe Portale, Victor Boureau, Adriana Paracchino, Aurélien Bornet, Huagui Lai, Fan Fu, Amit Kumar Sachan, Wolfgang Tress, Kerem Artuk, Mounir D. Mensi, Mohammad Reza Golobostanfard, Austin G. Kuba, Stefan Zeiske, Ardalan Armin, Nicolas Blondiaux, Lisa Champault, Ursula Röthlisberger, Beat Ruhstaller, Christophe Ballif, Aïcha Hessler-Wyser, Christian M. Wolff
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引用次数: 0

Abstract

The poor intrinsic perovskite absorber stability is arguably a central limitation challenging the prospect of commercialization for photovoltaic (PV) applications. Understanding the nanoscopic structural features that trigger instabilities in perovskite materials is essential to mitigate device degradation. Using nanostructure characterization techniques, we observe the local degradation to be initiated by material loss at stacking faults, forming inherently in the (011)-faceted perovskite domains in different formamidinium lead triiodide perovskite compositions. We introduce Ethylene Thiourea (ETU) as an additive into the perovskite precursor, which manipulates the perovskite crystal growth and results in dominantly in-and out-of-plane (001) oriented perovskite domains. Combining in-depth experimental analysis and density functional theory calculations, we find that ETU lowered the perovskite formation energy, readily enabling crystallization of the perovskite phase at room temperature without the need for an antisolvent quenching step. This facilitated the fabrication of high-quality large area 5 cm by 5 cm blade-coated perovskite films and devices. Encapsulated and unmasked ETU-treated devices, with an active area of 0.2 cm2, retained > 93 % of their initial power conversion efficiency (PCE) for > 2100 hours at room temperature, and additionally, 1 cm2 ETU-treated devices maintained T80 (the duration for the PCE to decay to 80 % of the initial value) for > 600 hours at 65 °C, under continuous 1-sun illumination at the maximum power point in ambient conditions. Our demonstration of scalable and stable perovskite solar cells represents a promising step towards achieving a reliable perovskite PV technology.

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稳定富甲脒钙钛矿吸收剂的层错抑制
可以说,透辉石吸收体内在稳定性差是挑战光伏(PV)应用商业化前景的核心限制因素。了解引发过氧化物材料不稳定性的纳米结构特征对于缓解器件降解至关重要。利用纳米结构表征技术,我们观察到局部降解是由堆叠断层处的材料损耗引发的,这种材料损耗是在不同甲脒三碘化铅包晶石成分的 (011)-faceted 包晶石畴中固有形成的。我们将乙烯硫脲(ETU)作为添加剂引入到透闪石前驱体中,从而操纵了透闪石晶体的生长,并形成了以平面内和平面外(001)取向为主的透闪石畴。结合深入的实验分析和密度泛函理论计算,我们发现 ETU 降低了包晶石的形成能,无需反溶剂淬火步骤即可在室温下实现包晶石相的结晶。这有助于制造出高质量的大面积 5 厘米 x 5 厘米叶片涂层的包光体薄膜和器件。经封装和未掩膜 ETU 处理的器件(活性面积为 0.2 平方厘米)在室温条件下 2100 小时内保持了其初始功率转换效率(PCE)的 93%,此外,经 1 平方厘米 ETU 处理的器件在 65 °C 条件下 600 小时内保持了 T80 值(PCE 衰减至初始值 80% 的持续时间)。我们展示的可扩展和稳定的过氧化物太阳能电池是向实现可靠的过氧化物光伏技术迈出的充满希望的一步。
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来源期刊
Advanced Materials
Advanced Materials 工程技术-材料科学:综合
CiteScore
43.00
自引率
4.10%
发文量
2182
审稿时长
2 months
期刊介绍: Advanced Materials, one of the world's most prestigious journals and the foundation of the Advanced portfolio, is the home of choice for best-in-class materials science for more than 30 years. Following this fast-growing and interdisciplinary field, we are considering and publishing the most important discoveries on any and all materials from materials scientists, chemists, physicists, engineers as well as health and life scientists and bringing you the latest results and trends in modern materials-related research every week.
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