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Nanoparticulate Metal Oxide Top Electrode Interface Modification Improves the Thermal Stability of Inverted Perovskite Photovoltaics

机译：纳米粒子金属氧化物顶部电极界面修饰改善了钙钛矿光伏反型的热稳定性

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Solution processed γ-Fe O nanoparticles via the solvothermal colloidal synthesis in conjunction with ligand-exchange method are used for interface modification of the top electrode in inverted perovskite solar cells. In comparison to more conventional top electrodes such as PC(70)BM/Al and PC(70)BM/AZO/Al, we show that incorporation of a γ-Fe O provides an alternative solution processed top electrode (PC(70)BM/γ-Fe O /Al) that not only results in comparable power conversion efficiencies but also improved thermal stability of inverted perovskite photovoltaics. The origin of improved stability of inverted perovskite solar cells incorporating PC(70)BM/ γ-Fe O /Al under accelerated heat lifetime conditions is attributed to the acidic surface nature of γ-Fe O and reduced charge trapped density within PC(70)BM/ γ-Fe O /Al top electrode interfaces.

机译：通过溶剂热胶体合成结合配体交换法对固溶γ-FeO纳米粒子进行固溶处理，用于倒钙钛矿型太阳能电池上电极的界面改性。与更常规的顶部电极（例如PC（70）BM / Al和PC（70）BM / AZO / Al）相比，我们证明了掺入γ-FeO可提供一种替代的溶液处理顶部电极（PC（70）BM /γ-FeO / Al）不仅可以产生可比的功率转换效率，而且可以改善倒钙钛矿光伏电池的热稳定性。掺入PC（70）BM /γ-FeO / Al的反向钙钛矿太阳能电池在加速的热寿命条件下提高稳定性的起源归因于γ-FeO的酸性表面性质和PC（70）内电荷陷阱密度的降低BM /γ-FeO / Al上电极界面。

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期刊名称 Nanomaterials
作者
Ioannis T. Papadas; Fedros Galatopoulos; Gerasimos S. Armatas; Nir Tessler; Stelios A. Choulis;
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作者单位

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年(卷),期 2019(9),11
年度 2019
页码 -1
总页数 17
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
nanoparticulate metal oxides; interfaces; charge traps density; electrodes; impedance spectroscopy; degradation mechanisms; accelerated lifetime; thermal stability; inverted perovskites solar cells;

机译：纳米金属氧化物;界面;电荷陷阱密度;电极;阻抗谱;降解机理;加速寿命;热稳定性;钙钛矿转化太阳能电池;

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专利

1. Enhanced thermal stability of inverted perovskite solar cells by interface modification and additive strategy [J] . Zheng Xueqing, Jiang Tingming, Bai Lizhong, RSC Advances . 2020,第31期

机译：通过界面改性和添加剂策略增强倒钙钛矿太阳能电池的热稳定性
2. Enhanced thermal stability of inverted perovskite solar cells by interface modification and additive strategy [J] . Xueqing Zheng, Tingming Jiang, Lizhong Bai, RSC Advances . 2020,第31期

机译：通过界面改性和添加剂策略增强倒钙钛矿太阳能电池的热稳定性
3. Thermal Stability of an in Situ Exsolved Metallic Nanoparticle Structured Perovskite Type Hydrogen Electrode for Solid Oxide Cells [J] . Zhang Tianhang, Zhao Yiqian, Zhang Xiaoyu, ACS Sustainable Chemistry & Engineering . 2019,第21期

机译：固体氧化物细胞的原位exsolved金属纳米粒子结构钙钛矿型氢电极的热稳定性
4. Interface modification to elevate charge collection of carbon electrode based perovskite solar cell to improve conversion efficiency and stability [C] . Yu-Zhe Liu, Kun-Mu Lee 応用物理学会学術講演会;応用物理学会 . 2020

机译：接口改造，提升基于钙电极的钙电极的充电集合，提高转化效率和稳定性
5. Band edge energetics and charge transfer processes in semiconductor-metal heterostructured nanorods as photocatalysts and metal oxide electrode-organic semiconductor interfaces in organic photovoltaics [D] . Ehamparam, Ramanan 2015

机译：半导体-金属异质结构纳米棒中的带边能量和电荷转移过程，作为有机光伏中的光催化剂和金属氧化物电极-有机半导体界面
6. Stability Assessment of p-i-n Perovskite Photovoltaic Mini-Modules Utilizing Different Top Metal Electrodes [O] . Janardan Dagar, Gopinath Paramasivam, Carola Klimm, 2021

机译：不同顶部金属电极的P-I-N PEROVSKITE光伏迷你模块的稳定性评估
7. Nanoparticulate Metal Oxide Top Electrode Interface Modification Improves the Thermal Stability of Inverted Perovskite Photovoltaics [O] . Ioannis T. Papadas, Fedros Galatopoulos, Gerasimos S. Armatas, 2019

机译：纳米颗粒金属氧化物顶部电极接口改性改善了倒钙钛矿光伏的热稳定性

Nanoparticulate Metal Oxide Top Electrode Interface Modification Improves the Thermal Stability of Inverted Perovskite Photovoltaics

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