State Key Laboratory of Molecular Engineering of Polymer, Fudan University , Shanghai 200433, China.
ACS Appl Mater Interfaces. 2017 Dec 6;9(48):41887-41897. doi: 10.1021/acsami.7b13621. Epub 2017 Nov 22.
Flexible perovskite solar cells (PSCs) using plastic substrates have become one of the most attractive points in the field of thin-film solar cells. Low-temperature and solution-processable nanoparticles (NPs) enable the fabrication of semiconductor thin films in a simple and low-cost approach to function as charge-selective layers in flexible PSCs. Here, we synthesized phase-pure p-type Cu-doped NiO NPs with good electrical properties, which can be processed to smooth, pinhole-free, and efficient hole transport layers (HTLs) with large-area uniformity over a wide range of film thickness using a room-temperature solution-processing technique. Such a high-quality inorganic HTL allows for the fabrication of flexible PSCs with an active area >1 cm, which have a power conversion efficiency over 15.01% without hysteresis. Moreover, the Cu/NiO NP-based flexible devices also demonstrate excellent air stability and mechanical stability compared to their counterpart fabricated on the pristine NiO films. This work will contribute to the evolution of upscaling flexible PSCs with a simple fabrication process and high device performances.
使用塑料衬底的柔性钙钛矿太阳能电池(PSCs)已成为薄膜太阳能电池领域最具吸引力的研究方向之一。低温和溶液处理的纳米粒子(NPs)可采用简单且低成本的方法来制造半导体薄膜,用作柔性 PSCs 中的电荷选择层。在此,我们合成了具有良好电性能的纯相 p 型 Cu 掺杂 NiO NPs,其可通过室温溶液处理技术处理,在很宽的薄膜厚度范围内形成光滑、无针孔且高效的空穴传输层(HTL),大面积均匀性良好。这种高质量的无机 HTL 可用于制造具有 >1 cm2 有效面积的柔性 PSCs,其无迟滞现象的功率转换效率超过 15.01%。此外,与在原始 NiO 薄膜上制备的器件相比,基于 Cu/NiO NP 的柔性器件还表现出优异的空气稳定性和机械稳定性。这项工作将有助于通过简单的制造工艺和高性能器件来推动柔性 PSCs 的规模化发展。
