Highly stable inverted organic photovoltaic cells with a V2O5 hole transport layer

Zafar Muhammad; Yun Ju-Young; Kim Do-Heyoung

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Highly stable inverted organic photovoltaic cells with a V2O5 hole transport layer

机译：具有V2O5空穴传输层的高度稳定的倒置有机光伏电池

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摘要

The stability of the hole transport layer (HTL) in inverted organic photovoltaic cells is of great interest because the conventional HTL material, PEDOT:PSS, shows limited stability. In this work, solution processed vanadium pentoxide (V2O5) was adopted as the HTL, and the effect of annealing on the properties of the HTL was investigated. The inverted organic photovoltaic cell fabricated with V2O5 and annealed for 5min at 165 A degrees C showed the highest power conversion efficiency (PCE) of 3.92%, which is an enhancement of 16% relative to the cell with PEDOT: PSS (PCE=3.36%). The cell with V2O5 was also found to be more stable than the PEDOT: PSS cell, in which a 51% decrease in PCE was observed after 96 h. In contrast, over the same interval, the V2O5 device maintained a PCE 85% of the original value.

机译：倒置有机光伏电池中的空穴传输层（HTL）的稳定性备受关注，因为常规HTL材料PEDOT：PSS的稳定性有限。在这项工作中，采用溶液处理的五氧化二钒（V2O5）作为HTL，并研究了退火对HTL性能的影响。用V2O5制成并在165 A的温度下退火5分钟的反向有机光伏电池显示出3.92％的最高功率转换效率（PCE），相对于使用PEDOT：PSS的电池（PCE = 3.36％）提高了16％）。还发现带有V2O5的细胞比PEDOT：PSS细胞更稳定，在96 h后观察到PCE下降了51％。相反，在相同的时间间隔内，V2O5设备将PCE保持为原始值的85％。

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来源
《The Korean journal of chemical engineering 》 |2017年第5期| 1504-1508| 共5页
作者
Zafar Muhammad; Yun Ju-Young; Kim Do-Heyoung;
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作者单位

Chonnam Natl Univ, Sch Chem Engn, 300 Youngbong Dong, Gwangju 61186, South Korea;

Korea Res Inst Stand & Sci, Ctr Vacuum, 267 Gajeong Ro, Daejeon 34113, South Korea;

Chonnam Natl Univ, Sch Chem Engn, 300 Youngbong Dong, Gwangju 61186, South Korea;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Hole Transport Layer; Spin Coating; Inverted Organic Photovoltaic Cell; Vanadium Pentoxide;

机译：空穴传输层;旋涂;有机光伏电池倒置;五氧化二钒;

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3. Highly efficient air-stable/hysteresis-free flexible inverted-type planar perovskite and organic solar cells employing a small molecular organic hole transporting material [J] . Saripally Sudhaker Reddy, Sungmin Shin, Um Kanta Aryal, Nano Energy . 2017 ,第期

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4. Effect of the electron-transport and hole-transport layers on the electrical properties of organic photovoltaic cells performed by simulation and experiment [C] . H. M Choi, H. S. Han, J. Y. Lee, International Conference on the Physics of Semiconductors . 2011

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5. Improved anodic interfaces in bulk-heterojunction organic photovoltaics via siloxane-based electron-blocking/hole-transporting interfacial layers and transparent conducting oxide treatment. [D] . Hains, Alexander William. 2009

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6. Highly efficient and stable inverted perovskite solar cell employing PEDOT:GO composite layer as a hole transport layer [O] . Jae Choul Yu, Ji A Hong, Eui Dae Jung, -1

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机译：低温，固溶处理的层状V2O5水合物作为空穴传输层，用于稳定的有机太阳能电池

Highly stable inverted organic photovoltaic cells with a V2O5 hole transport layer

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