Effect of Electron Transporting Layer on Bismuth-Based Lead-Free Perovskite (CH3NH3)(3) Bi2I9 for Photovoltaic Applications

Singh Trilok; Kulkarni Ashish; Ikegami Masashi; Miyasaka Tsutomu

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Effect of Electron Transporting Layer on Bismuth-Based Lead-Free Perovskite (CH3NH3)(3) Bi2I9 for Photovoltaic Applications

机译：电子传输层对用于光伏应用的铋基无铅钙钛矿（CH3NH3）（3）Bi2I9的影响

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Methylaminonium iodo bismuthate ((CH3NH3)(3)Bi-2-I-9) (MBI) perovskite is a promising alternative to rapidly progressing hybrid organic inorganic lead perovskites because of its better stability and low toxicity compared to lead-based perovskites. Solution-processed perovskite fabricated by single-step spin-coating and subsequent heating produced polycrystalline films of hybrid perovskite (CH3NH3)(3)Bi-2-I-9, whose morphology was influenced drastically by the nature of substrate's. The optical measurements showed a strong absorption band around 500 nm. The devices made on anatase TiO2 mesoporous layer showed good performance with current density over 0.8 mA cm(-2) while the devices on brookite TiO2 layer and planar (free of porous layer) was inefficient. However, all the MBI devices were stable to ambient conditions for more than 10 weeks.

机译：甲基氨基碘酸铋铋（（CH3NH3）（3）Bi-2-I-9）（MBI）钙钛矿是有希望的替代快速发展的杂化有机无机铅钙钛矿的方法，因为与基于铅的钙钛矿相比，它具有更好的稳定性和低毒性。通过一步旋涂和随后的加热制备的固溶钙钛矿产生了杂化钙钛矿（CH3NH3）（3）Bi-2-I-9的多晶膜，其形貌受基质性质的影响很大。光学测量显示在500 nm附近有很强的吸收带。在锐钛矿型TiO2介孔层上制备的器件表现出良好的性能，电流密度超过0.8 mA cm（-2），而在板钛矿TiO2层和平面（不含多孔层）上的器件效率低下。但是，所有MBI器件在环境条件下稳定超过10周。

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《ACS applied materials & interfaces》 |2016年第23期|共6页
作者
Singh Trilok; Kulkarni Ashish; Ikegami Masashi; Miyasaka Tsutomu;
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正文语种 eng
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lead-free perovskite; methylammonium iodo bismuthate (MBI); hybrid perovskite; TiO2 compact layer (CL); TiO2 anatase mesoporous; TiO2 brookite mesoporous; stability;

机译：无铅钙钛矿;甲基碘化铋铵（MBI）;混合钙钛矿;TiO2致密层（CL）;TiO2锐钛矿介孔;TiO2板钛矿介孔;稳定性;
入库时间 2022-08-19 12:27:31

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1. Effect of Electron Transporting Layer on Bismuth-Based Lead-Free Perovskite (CH3NH3)(3) Bi2I9 for Photovoltaic Applications [J] . Singh Trilok, Kulkarni Ashish, Ikegami Masashi, ACS applied materials & interfaces . 2016,第23期

机译：电子传输层对用于光伏应用的铋基无铅钙钛矿（CH3NH3）（3）Bi2I9的影响
2. Lead-free (CH3NH3)(3)Bi2I9 perovskite solar cells with fluorinated PDI films as organic electron transport layer [J] . Huang Jiachi, Gu Zhuowei, Zhang Xinqian, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2018,第期

机译：无铅（CH3NH3）（3）BI2I9钙钛矿太阳能电池，氟化PDI薄膜作为有机电子传输层
3. An effective approach of vapour assisted morphological tailoring for reducing metal defect sites in lead-free, (CH3NH3)(3)Bi2I9 bismuth-based perovskite solar cells for improved performance and long-term stability [J] . Jain Sagar M., Phuyal Dibya, Davies Matthew L., Nano Energy . 2018,第期

机译：用于减少无铅金属缺陷位点的蒸气辅助形态剪裁的有效方法，用于改善性能和长期稳定性
4. Blade-Coated Electron Transport Layers to Enable Scalable Perovskite Photovoltaics [C] . Keith P. Moran, Kyle J. Reiter, Mengjin Yang, IEEE Photovoltaic Specialists Conference . 2020

机译：刀片涂层电子传输层，以实现可扩展的钙钛矿光伏
5. Studies on Bismuth-based Light Absorbers for Lead-free Perovskite Solar Cells [D] . Zhang Chu 2019

机译：无铅钙钛矿太阳能电池铋基吸光剂的研究
6. Electronic and optical properties of lead-free hybrid double perovskites for photovoltaic and optoelectronic applications [O] . Md Roknuzzaman, Chunmei Zhang, Kostya (Ken) Ostrikov, -1

机译：用于光伏和光电应用的无铅混合钙钛矿的电子和光学性能
7. Electronic and optical properties of lead-free hybrid double perovskites for photovoltaic and optoelectronic applications [O] . Md Roknuzzaman, Chunmei Zhang, Kostya (Ken) Ostrikov, 2019

机译：光伏和光电应用的无铅混合双钙耐力的电子和光学性能

Effect of Electron Transporting Layer on Bismuth-Based Lead-Free Perovskite (CH3NH3)(3) Bi2I9 for Photovoltaic Applications

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