Single-source pulsed laser-deposited perovskite solar cells with enhanced performance via bulk and 2D passivation

IF 38.6 1区材料科学 Q1 CHEMISTRY, PHYSICAL Joule Pub Date : 2024-09-25 DOI:10.1016/j.joule.2024.09.001

Tatiana Soto-Montero, Suzana Kralj, Randi Azmi, Manuel A. Reus, Junia S. Solomon, Daniel M. Cunha, Wiria Soltanpoor, Drajad Satrio Utomo, Esma Ugur, Badri Vishal, Martin Ledinsky, Peter Müller-Buschbaum, Finn Babbe, Do Kyoung Lee, Carolin M. Sutter-Fella, Erkan Aydin, Stefaan De Wolf, Monica Morales-Masis

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Abstract

Single-source vapor deposition of halide perovskites has, to date, remained challenging due to the dissimilar volatilities of the precursors, limiting the controlled transfer of multiple elements at once. Here, we demonstrate that pulsed laser deposition (PLD) addresses the rate-control challenges of single-source evaporation, enabling perovskite solar cells with power conversion efficiencies above 19% after passivation. Combining dry mechanochemical synthesis and PLD, we fabricated (Cl-passivated) MA_1−xFA_xPbI₃ films from a single-source target. These films grow on hole-selective self-assembled monolayers, initially forming a thin PbI₂-rich layer, which fully converts to perovskite. An oleylammonium iodide (OAmI) post-treatment is then applied to passivate the perovskite’s top surface by forming a 2D perovskite film. Incorporating PbCl₂ in the target and applying OAmI-based 2D passivation results in a remarkable 19.7% efficiency for p-i-n perovskite solar cells with enhanced device stability. This highlights the appeal of PLD to fully unlock the potential of single-source vapor-deposited perovskites.

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通过块体和二维钝化提高性能的单源脉冲激光沉积过氧化物太阳能电池

迄今为止，卤化物包晶的单源气相沉积仍具有挑战性，原因是前驱体的挥发性不同，限制了多种元素同时受控转移。在这里，我们证明脉冲激光沉积 (PLD) 解决了单源蒸发的速率控制难题，使包晶石太阳能电池在钝化后的功率转换效率超过 19%。结合干式机械化学合成和 PLD，我们从单源靶制造出了（Cl 钝化）MA1-xFAxPbI3 薄膜。这些薄膜生长在空穴选择性自组装单层上，最初形成一层富含 PbI2 的薄层，然后完全转化为包晶。然后进行油基碘化铵（OAmI）后处理，通过形成二维透辉石薄膜来钝化透辉石的顶面。在靶材中加入氯化铅并应用基于 OAmI 的二维钝化技术，可使 pi-n 型过氧化物太阳能电池的效率显著提高到 19.7%，并增强了器件的稳定性。这凸显了 PLD 在充分释放单源蒸镀包晶石潜力方面的吸引力。

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来源期刊

Joule Energy-General Energy

CiteScore

53.10

自引率

2.00%

发文量

198

期刊介绍： Joule is a sister journal to Cell that focuses on research, analysis, and ideas related to sustainable energy. It aims to address the global challenge of the need for more sustainable energy solutions. Joule is a forward-looking journal that bridges disciplines and scales of energy research. It connects researchers and analysts working on scientific, technical, economic, policy, and social challenges related to sustainable energy. The journal covers a wide range of energy research, from fundamental laboratory studies on energy conversion and storage to global-level analysis. Joule aims to highlight and amplify the implications, challenges, and opportunities of novel energy research for different groups in the field.