Deposition of zinc oxide as an electron transport layer in planar perovskite solar cells by spray and SILAR methods comparable with spin coating

Dehghan M.; Behjat A.

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Deposition of zinc oxide as an electron transport layer in planar perovskite solar cells by spray and SILAR methods comparable with spin coating

机译：通过喷涂和Sill方法将氧化锌作为电子传输层作为电子传输层通过喷射和Sill方法与旋涂相当

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CH3NH3PbI3 planar-structure perovskite solar cells were fabricated with the configuration FTO/ZnO/CH3NH3PbI3/Au. ZnO nanoparticles were synthesized by the precipitation method. Three different deposition methods including spin-coating, spraying and successive ionic layer adsorption and reaction (SILAR) were applied to fabricate the ZnO films as electron transport layers. Certain analyses, such as XRD, SEM, FESEM, UV-visible and I-V measurements, were carried out to evaluate the performance of the cells. The best cell performance was achieved for the perovskite solar cell with a ZnO film coated by the spin method. The average efficiency was 7% without using any hole transport materials and 10.25% using spiro-OMeTAD as a hole transport material. The average efficiencies of the cells coated by the spraying and SILAR methods using spiro-OMeTAD, were found to be 8.64% and 7.7% respectively. This study demonstrates the versatility of the spray and SILAR coating methods and their potential for fabricating low-cost, large scale, flexible and mass produced perovskite solar cells.

机译：CH3NH3PBI3平面结构钙钛矿太阳能电池用构型FTO / ZnO / CH3NH3PBI3 / Au制造。通过沉淀法合成ZnO纳米颗粒。施加三种不同的沉积方法，包括旋涂，喷涂和连续的离子层吸附和反应（Sill），以制造作为电子传输层的ZnO膜。进行某些分析，例如XRD，SEM，FESEM，UV可见和I-V测量，以评估细胞的性能。通过旋转方法涂覆的ZnO膜来实现最佳细胞性能。平均效率为7％，而不使用任何空穴传输材料和10.25％使用螺米孔作为空穴传输材料。用螺米粥涂覆的喷雾和Sill方法涂覆的细胞的平均效率分别为8.64％和7.7％。本研究表明了喷雾和微观涂层方法的多功能性及其制造低成本，大规模，柔性和群众生产钙钛矿太阳能电池的可能性。

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《RSC Advances》 |2019年第36期|共8页
作者
Dehghan M.; Behjat A.;
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Yazd Univ Photon Res Grp Engn Res Ctr Yazd Iran;

Yazd Univ Photon Res Grp Engn Res Ctr Yazd Iran;

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正文语种 eng
中图分类化学;
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1. Deposition of zinc oxide as an electron transport layer in planar perovskite solar cells by spray and SILAR methods comparable with spin coating [J] . Dehghan M., Behjat A. RSC Advances . 2019,第36期

机译：通过喷涂和Sill方法将氧化锌作为电子传输层作为电子传输层通过喷射和Sill方法与旋涂相当
2. Stoichiometry control of sputtered zinc oxide films by adjusting Ar/O-2 gas ratios as electron transport layers for efficient planar perovskite solar cells [J] . Zhao Wenjing, Wang Kang, Li Hua, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2018,第期

机译：通过调节Ar / O-2气体比作为高效平面的电子传输层来控制溅射氧化锌膜的化学计量控制
3. Indium Zinc Oxide Electron Transport Layer for High-Performance Planar Perovskite Solar Cells [J] . Wang Liang, Liu Fengjing, Cai Xiaoyong, The journal of physical chemistry, C. Nanomaterials and interfaces . 2018,第50期

机译：用于高性能平面钙钛矿太阳能电池的氧化锌电子传输层
4. Effect of TiCl_4 Treatment on Low-Temperature Processed Brookite TiO_2 Nanoparticle Layers for Electron Transport Layer of Efficient Planar Perovskite Solar Cells [C] . Sem Visal, Md. Shahiduzzaman, Mizuki Kuniyoshi, 2019年第66回応用物理学会春季学術講演会講演予稿集 . 2019

机译：TiCl_4处理对高效平面钙钛矿太阳能电池电子传输层低温处理的板钛矿TiO_2纳米粒子层的影响
5. New Method of Nickel Oxide as Hole Transport Layer and Characteristics of Nickel Oxide Based Perovskite Solar Cell [D] . Nguyen, Loi. 2018

机译：氧化镍作为空穴传输层的新方法及基于氧化镍的钙钛矿太阳能电池的特性
6. Tungsten-Doped Zinc Oxide and Indium–Zinc Oxide Films as High-Performance Electron-Transport Layers in N–I–P Perovskite Solar Cells [O] . Ju Hwan Kang, Aeran Song, Yu Jung Park, 2020

机译：掺钨的氧化锌和铟锌氧化物薄膜作为N–I–P钙钛矿太阳能电池中的高性能电子传输层
7. Deposition of zinc oxide as an electron transport layer in planar perovskite solar cells by spray and SILAR methods comparable with spin coating [O] . M. Dehghan, A. Behjat 2019

机译：通过喷涂和Sill方法将氧化锌作为电子传输层作为电子传输层通过喷射和Sill方法与旋涂相当

Deposition of zinc oxide as an electron transport layer in planar perovskite solar cells by spray and SILAR methods comparable with spin coating

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