Boosting the Efficiency of Non-fullerene Organic Solar Cells via a Simple Cathode Modification Method

Siyi Ding; Ruijie Ma; Tao Yang; Guangye Zhang; Junli Yin; Zhenghui Luo; Kai Chen; Zongcheng Miao; Tao Liu; He Yan; Dongfeng Xue

doi:10.1021/acsami.1c16550

Boosting the Efficiency of Non-fullerene Organic Solar Cells via a Simple Cathode Modification Method

Siyi Ding
, Ruijie Ma
, Tao Yang
, Guangye Zhang
, Junli Yin
, Zhenghui Luo
, Kai Chen
, Zongcheng Miao
, Tao Liu
, He Yan
, Dongfeng Xue

School of Materials Science and Engineering

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

This work demonstrates a simple yet effective method to significantly improve the power conversion efficiency (PCE) of highly efficient non-fullerene organic solar cells by mixing two electron transport materials. The new electron transport layer shows an energy level better aligned with the active layer and an improved morphology that could reduce the active layer-electrode contact. These improvements lead to enhanced charge extraction, better charge selectivity, suppressed exciton recombination, and finally a boosted PCE in the PM6:Y6-based solar cells. When applied in conjunction with the non-halogenated solvent-processed PM6:PY-IT-based active layer, the mixed ETL also gives rise to a leading result for binary all-polymer solar cells (PCE of >16%) with a concurrent increase in VOC, JSC, and FF.

Original language	English
Pages (from-to)	51078-51085
Number of pages	8
Journal	ACS Applied Materials and Interfaces
Volume	13
Issue number	43
DOIs	https://doi.org/10.1021/acsami.1c16550
State	Published - 3 Nov 2021

Keywords

charge extraction
electron transport layer
organic solar cells
power conversion efficiency
simple modification

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10.1021/acsami.1c16550

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title = "Boosting the Efficiency of Non-fullerene Organic Solar Cells via a Simple Cathode Modification Method",

abstract = "This work demonstrates a simple yet effective method to significantly improve the power conversion efficiency (PCE) of highly efficient non-fullerene organic solar cells by mixing two electron transport materials. The new electron transport layer shows an energy level better aligned with the active layer and an improved morphology that could reduce the active layer-electrode contact. These improvements lead to enhanced charge extraction, better charge selectivity, suppressed exciton recombination, and finally a boosted PCE in the PM6:Y6-based solar cells. When applied in conjunction with the non-halogenated solvent-processed PM6:PY-IT-based active layer, the mixed ETL also gives rise to a leading result for binary all-polymer solar cells (PCE of >16\%) with a concurrent increase in VOC, JSC, and FF.",

keywords = "charge extraction, electron transport layer, organic solar cells, power conversion efficiency, simple modification",

author = "Siyi Ding and Ruijie Ma and Tao Yang and Guangye Zhang and Junli Yin and Zhenghui Luo and Kai Chen and Zongcheng Miao and Tao Liu and He Yan and Dongfeng Xue",

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doi = "10.1021/acsami.1c16550",

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TY - JOUR

T1 - Boosting the Efficiency of Non-fullerene Organic Solar Cells via a Simple Cathode Modification Method

AU - Ding, Siyi

AU - Ma, Ruijie

AU - Yang, Tao

AU - Zhang, Guangye

AU - Yin, Junli

AU - Luo, Zhenghui

AU - Chen, Kai

AU - Miao, Zongcheng

AU - Liu, Tao

AU - Yan, He

AU - Xue, Dongfeng

PY - 2021/11/3

Y1 - 2021/11/3

N2 - This work demonstrates a simple yet effective method to significantly improve the power conversion efficiency (PCE) of highly efficient non-fullerene organic solar cells by mixing two electron transport materials. The new electron transport layer shows an energy level better aligned with the active layer and an improved morphology that could reduce the active layer-electrode contact. These improvements lead to enhanced charge extraction, better charge selectivity, suppressed exciton recombination, and finally a boosted PCE in the PM6:Y6-based solar cells. When applied in conjunction with the non-halogenated solvent-processed PM6:PY-IT-based active layer, the mixed ETL also gives rise to a leading result for binary all-polymer solar cells (PCE of >16%) with a concurrent increase in VOC, JSC, and FF.

AB - This work demonstrates a simple yet effective method to significantly improve the power conversion efficiency (PCE) of highly efficient non-fullerene organic solar cells by mixing two electron transport materials. The new electron transport layer shows an energy level better aligned with the active layer and an improved morphology that could reduce the active layer-electrode contact. These improvements lead to enhanced charge extraction, better charge selectivity, suppressed exciton recombination, and finally a boosted PCE in the PM6:Y6-based solar cells. When applied in conjunction with the non-halogenated solvent-processed PM6:PY-IT-based active layer, the mixed ETL also gives rise to a leading result for binary all-polymer solar cells (PCE of >16%) with a concurrent increase in VOC, JSC, and FF.

KW - charge extraction

KW - electron transport layer

KW - organic solar cells

KW - power conversion efficiency

KW - simple modification

UR - https://www.scopus.com/pages/publications/85118769745

U2 - 10.1021/acsami.1c16550

DO - 10.1021/acsami.1c16550

M3 - 文章

C2 - 34665602

AN - SCOPUS:85118769745

SN - 1944-8244

VL - 13

SP - 51078

EP - 51085

JO - ACS Applied Materials and Interfaces

JF - ACS Applied Materials and Interfaces

IS - 43

ER -

Boosting the Efficiency of Non-fullerene Organic Solar Cells via a Simple Cathode Modification Method

Abstract

Keywords

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