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Multifunctional ytterbium oxide buffer for perovskite solar cells.

Peng ChenYun XiaoJuntao HuShunde LiDeying LuoRui SuPietro CaprioglioPascal KaienburgXiaohan JiaNan ChenJingjing WuYanping SuiPeng-Yi TangHaoming YanTianyu HuangMaotao YuQiuyang LiLichen ZhaoCheng-Hung HouYun-Wen YouJing-Jong ShyueDengke WangXiaojun LiQing ZhaoQihuang GongZheng Hong LuHenry James SnaithRui Zhu
Published in: Nature (2024)
Perovskite solar cells (PSCs) comprise a solid perovskite absorber sandwiched between several layers of different charge-selective materials, ensuring unidirectional current flow and high voltage output of the devices 1,2 . A 'buffer material' between the electron-selective layer and the metal electrode in p-type/intrinsic/n-type (p-i-n) PSCs (also known as inverted PSCs) enables electrons to flow from the electron-selective layer to the electrode 3-5 . Furthermore, it acts as a barrier inhibiting the inter-diffusion of harmful species into or degradation products out of the perovskite absorber 6-8 . Thus far, evaporable organic molecules 9,10 and atomic-layer-deposited metal oxides 11,12 have been successful, but each has specific imperfections. Here we report a chemically stable and multifunctional buffer material, ytterbium oxide (YbO x ), for p-i-n PSCs by scalable thermal evaporation deposition. We used this YbO x buffer in the p-i-n PSCs with a narrow-bandgap perovskite absorber, yielding a certified power conversion efficiency of more than 25%. We also demonstrate the broad applicability of YbO x in enabling highly efficient PSCs from various types of perovskite absorber layer, delivering state-of-the-art efficiencies of 20.1% for the wide-bandgap perovskite absorber and 22.1% for the mid-bandgap perovskite absorber, respectively. Moreover, when subjected to ISOS-L-3 accelerated ageing, encapsulated devices with YbO x exhibit markedly enhanced device stability.
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