Physicochemical Interface Engineering of Cul/Cu as Advanced Potential Hole-Transporting Materials/Metal Contact Couples in Hysteresis-Free Ultralow-Cost and Large-Area Perovskite Solar Cells

Nazari Pariya; Ansari Fatemeh; Nejand Bahram Abdollahi; Ahmadi Vahid; Payandeh Masoud; Salavati-Niasari Masoud

首页> 外文期刊>The journal of physical chemistry, C. Nanomaterials and interfaces >Physicochemical Interface Engineering of Cul/Cu as Advanced Potential Hole-Transporting Materials/Metal Contact Couples in Hysteresis-Free Ultralow-Cost and Large-Area Perovskite Solar Cells

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Physicochemical Interface Engineering of Cul/Cu as Advanced Potential Hole-Transporting Materials/Metal Contact Couples in Hysteresis-Free Ultralow-Cost and Large-Area Perovskite Solar Cells

机译：CUL / CU的物理化学界面工程作为先进的潜在空穴输送材料/金属接触耦合在无滞后的超级成本和大面积钙钛矿太阳能电池

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Low-cost fabrication of perovskite solar cells while fusing large-area deposition potential along with high power conversion efficiency and durability paves the way for scaling up the perovskite solar cells. In this work, a novel approach in the simultaneous deposition of hole-transporting and contact layers is introduced. The interface engineering is conducted in order to grow CuI as a hole-transporting material at the interface of Cu contact and perovskite layer through which great reproducibility and durability are achieved. The prepared devices show 9.24% and 8.3% power conversion efficiencies for 0.1 and 1 cm(2) active areas, respectively.

机译：佩罗夫斯基钛矿太阳能电池的低成本制造，同时融合大面积沉积电位以及高功率转换效率和耐用性铺平了缩放钙钛矿太阳能电池的方式。在这项工作中，引入了同时沉积空穴传输和接触层的新方法。进行界面工程以使Cui作为Cu接触和钙钛矿层的界面处的空穴传输材料进行，通过这种方式实现了很大的再现性和耐用性。制备的装置分别显示9.24％和8.3％的功率转换效率为0.1和1cm（2）个有效区域。

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《The journal of physical chemistry, C. Nanomaterials and interfaces》 |2017年第40期|共10页
作者
Nazari Pariya; Ansari Fatemeh; Nejand Bahram Abdollahi; Ahmadi Vahid; Payandeh Masoud; Salavati-Niasari Masoud;
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作者单位

Tarbiat Modares Univ Sch Elect &

Comp Engn Tehran Iran;

Univ Kashan Inst Nano Sci &

Nano Technol Kashan Iran;

Tarbiat Modares Univ Sch Elect &

Comp Engn Tehran Iran;

Tarbiat Modares Univ Sch Elect &

Comp Engn Tehran Iran;

Tarbiat Modares Univ Sch Elect &

Comp Engn Tehran Iran;

Univ Kashan Inst Nano Sci &

Nano Technol Kashan Iran;

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原文格式 PDF
正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
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1. Physicochemical Interface Engineering of Cul/Cu as Advanced Potential Hole-Transporting Materials/Metal Contact Couples in Hysteresis-Free Ultralow-Cost and Large-Area Perovskite Solar Cells [J] . Nazari Pariya, Ansari Fatemeh, Nejand Bahram Abdollahi, The journal of physical chemistry, C. Nanomaterials and interfaces . 2017,第40期

机译：CUL / CU的物理化学界面工程作为先进的潜在空穴输送材料/金属接触耦合在无滞后的超级成本和大面积钙钛矿太阳能电池
2. Recent advances of Cu-based hole transport materials and their interface engineering concerning different processing methods in perovskite solar cells [J] . Tengling Ye, Xiaochen Sun, Xiaoru Zhang, 天然气化学（英文版） . 2021,第011期

机译：Cu基孔输送材料及其临床综合工程在钙钛矿太阳能电池中的不同加工方法的进展
3. Dopant Engineering for Spiro-OMeTAD Hole-Transporting Materials towards Efficient Perovskite Solar Cells [J] . Seo Ji-Youn, Akin Seckin, Zalibera Michal, Advanced Functional Materials . 2021,第45期

机译：螺旋Ometad孔输送材料的掺杂工程朝向高效的Perovskite太阳能电池
4. Transparent Hole-Transporting Materials Containing Partially Oxygen-Bridged Triphenylamine Skeletons for Efficient Perovskite Solar Cells [C] . Truong Minh Anh, Richard Murdey, Atsushi Wakamiya Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：透明空穴传输材料，含有部分氧气桥接三苯胺骨架，用于高效钙钛矿太阳能电池
5. Materials, Interfaces and Device Fabrication for Perovskite Solar Cells [D] . Zhu, Zonglong. 2015

机译：钙钛矿太阳能电池的材料，界面和装置制造
6. Surface Treatment of Cu:NiOx Hole-Transporting Layer Using β-Alanine for Hysteresis-Free and Thermally Stable Inverted Perovskite Solar Cells [O] . Fedros Galatopoulos, Ioannis T. Papadas, Apostolos Ioakeimidis, 2020

机译：Cu的表面处理Cu：NiOx空穴传输层使用β-丙氨酸用于无滞后和热稳定的倒立钙钛矿太阳能电池
7. Core Fusion Engineering of Hole-Transporting Materials for Efficient Perovskite Solar Cells [O] . -1

机译：高效钙钛矿太阳能电池孔输送材料的核心融合工程

Physicochemical Interface Engineering of Cul/Cu as Advanced Potential Hole-Transporting Materials/Metal Contact Couples in Hysteresis-Free Ultralow-Cost and Large-Area Perovskite Solar Cells

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