Diphosphonic acid-modified PEDOT:PSS for enhanced stability and efficiency in organic solar cells: Achieving 19.5% PCE through PSS erosion mitigation and interface Optimization

被引：0

作者：

Xu, Shanlei ^{[1
]}

Geng, Renyong ^{[2
]}

Liu, Xingting ^{[1
]}

Li, Huan ^{[3
]}

Zhou, Xinjie ^{[1
]}

Zhu, Weiguo ^{[1
]}

Song, Xin ^{[1
]}

机构：

[1] Changzhou Univ, Sch Mat Sci & Engn, Jiangsu Engn Lab Light Elect Heat Energy Convertin, Changzhou 213164, Peoples R China

[2] Fuyang Normal Univ, Sch Chem & Mat Engn, Fuyang 236037, Peoples R China

[3] Chinese Acad Sci, Lanzhou Inst Chem Phys, State Key Lab Solid Lubricat, Lanzhou 730000, Peoples R China

来源：

CHEMICAL ENGINEERING JOURNAL | 2025年 / 510卷

关键词：

Organic solar cells; Hole-transport mMateriam; PEDOT:PSS; Self-assembly materials; CONDUCTIVITY; PERFORMANCE; ELECTRODES; FILMS;

D O I：

10.1016/j.cej.2025.161453

中图分类号：

X [环境科学、安全科学];

学科分类号：

08 ; 0830 ;

摘要：

Poly(3,4-ethylenedioxythiophenyl):poly(styrene sulfonic acid) (PEDOT:PSS) is valued for its electrical conductivity, transparency, and solution processability. Despite these benefits, the acidic PSS chains ionize readily in water, leading to a strongly acidic environment that affects device longevity. To address this, we introduce D3PACz, featuring bisphosphonic acid anchoring groups. The lower phosphate group anchors to ITO and modifies PEDOT:PSS to adjust its work function, while the upper group separates acidic PSS from PEDOT, mitigating PSS's corrosive effects on ITO. The D3PACz/PEDOT:PSS bilayer results in a smoother surface, facilitating active layer deposition and enhancing exciton dissociation and collection, thus improving conductivity. We then utilized this D3PACz/PEDOT:PSS as hole-transporting layer for constructing the organic solar cells devices, where a best performance of 19.5% is yielded with the enhanced photostability (PEDOT:PSS device:18.3%).

引用

页数：8

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