Effect of anode interfacial modification on the performance of laminated flexible ITO‐free organic solar cells

Effect of anode interfacial modification on the performance of laminated flexible ITO‐free organic solar cells

Abstract Lamination technique is one of the most promising and effective approaches to produce flexible organic solar cells (OSCs), with the combination of high throughput and simultaneous encapsulation. In this study, flexible ITO‐free OSCs were successfully fabricated by lamination technique under...

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Main Authors: Zesen Lin, Wei Guan, Wanzhu Cai, Le Wang, Xiaojing Wang, Zhicai He, Lintao Hou
Format: Article
Language:English
Published: Wiley 2021-04-01
Series:Energy Science & Engineering
Subjects:
flexible
interface layer
lamination
organic solar cells
self‐encapsulation
Online Access:https://doi.org/10.1002/ese3.870
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spelling doaj-c78ad74b993b4a5fb3184ea3d66ab4c32021-04-02T04:54:57ZengWileyEnergy Science & Engineering2050-05052021-04-019450250810.1002/ese3.870Effect of anode interfacial modification on the performance of laminated flexible ITO‐free organic solar cellsZesen Lin0Wei Guan1Wanzhu Cai2Le Wang3Xiaojing Wang4Zhicai He5Lintao Hou6Department of Physics Siyuan Laboratory Guangzhou Key Laboratory of Vacuum Coating Technologies and New Energy Materials Jinan University Guangzhou ChinaDepartment of Physics Siyuan Laboratory Guangzhou Key Laboratory of Vacuum Coating Technologies and New Energy Materials Jinan University Guangzhou ChinaDepartment of Physics Siyuan Laboratory Guangzhou Key Laboratory of Vacuum Coating Technologies and New Energy Materials Jinan University Guangzhou ChinaDepartment of Physics Siyuan Laboratory Guangzhou Key Laboratory of Vacuum Coating Technologies and New Energy Materials Jinan University Guangzhou ChinaInstitute of Polymer Optoelectronic Materials & Devices State Key Laboratory of Luminescent Materials & Devices South China University of Technology Guangzhou ChinaInstitute of Polymer Optoelectronic Materials & Devices State Key Laboratory of Luminescent Materials & Devices South China University of Technology Guangzhou ChinaDepartment of Physics Siyuan Laboratory Guangzhou Key Laboratory of Vacuum Coating Technologies and New Energy Materials Jinan University Guangzhou ChinaAbstract Lamination technique is one of the most promising and effective approaches to produce flexible organic solar cells (OSCs), with the combination of high throughput and simultaneous encapsulation. In this study, flexible ITO‐free OSCs were successfully fabricated by lamination technique under the optimized temperature and pressure. It is found that the introduction of hole interface layer of PEDOT:MoO3 helps to improve both the film hydrophobicity and the carrier extraction. A high efficiency improvement of about 30% is obtained in the interface‐modified laminating flexible ITO‐free OSCs compared to the conventional laminated device. This work illustrates that anode interface engineering has a significant effect on the improvement of performance of roll‐to‐roll laminated and self‐encapsulated OSCs.https://doi.org/10.1002/ese3.870flexibleinterface layerlaminationorganic solar cellsself‐encapsulation
collection DOAJ
language English
format Article
sources DOAJ
author Zesen Lin
Wei Guan
Wanzhu Cai
Le Wang
Xiaojing Wang
Zhicai He
Lintao Hou
spellingShingle Zesen Lin
Wei Guan
Wanzhu Cai
Le Wang
Xiaojing Wang
Zhicai He
Lintao Hou
Effect of anode interfacial modification on the performance of laminated flexible ITO‐free organic solar cells
Energy Science & Engineering
flexible
interface layer
lamination
organic solar cells
self‐encapsulation
author_facet Zesen Lin
Wei Guan
Wanzhu Cai
Le Wang
Xiaojing Wang
Zhicai He
Lintao Hou
author_sort Zesen Lin
title Effect of anode interfacial modification on the performance of laminated flexible ITO‐free organic solar cells
title_short Effect of anode interfacial modification on the performance of laminated flexible ITO‐free organic solar cells
title_full Effect of anode interfacial modification on the performance of laminated flexible ITO‐free organic solar cells
title_fullStr Effect of anode interfacial modification on the performance of laminated flexible ITO‐free organic solar cells
title_full_unstemmed Effect of anode interfacial modification on the performance of laminated flexible ITO‐free organic solar cells
title_sort effect of anode interfacial modification on the performance of laminated flexible ito‐free organic solar cells
publisher Wiley
series Energy Science & Engineering
issn 2050-0505
publishDate 2021-04-01
description Abstract Lamination technique is one of the most promising and effective approaches to produce flexible organic solar cells (OSCs), with the combination of high throughput and simultaneous encapsulation. In this study, flexible ITO‐free OSCs were successfully fabricated by lamination technique under the optimized temperature and pressure. It is found that the introduction of hole interface layer of PEDOT:MoO3 helps to improve both the film hydrophobicity and the carrier extraction. A high efficiency improvement of about 30% is obtained in the interface‐modified laminating flexible ITO‐free OSCs compared to the conventional laminated device. This work illustrates that anode interface engineering has a significant effect on the improvement of performance of roll‐to‐roll laminated and self‐encapsulated OSCs.
topic flexible
interface layer
lamination
organic solar cells
self‐encapsulation
url https://doi.org/10.1002/ese3.870
work_keys_str_mv AT zesenlin effectofanodeinterfacialmodificationontheperformanceoflaminatedflexibleitofreeorganicsolarcells
AT weiguan effectofanodeinterfacialmodificationontheperformanceoflaminatedflexibleitofreeorganicsolarcells
AT wanzhucai effectofanodeinterfacialmodificationontheperformanceoflaminatedflexibleitofreeorganicsolarcells
AT lewang effectofanodeinterfacialmodificationontheperformanceoflaminatedflexibleitofreeorganicsolarcells
AT xiaojingwang effectofanodeinterfacialmodificationontheperformanceoflaminatedflexibleitofreeorganicsolarcells
AT zhicaihe effectofanodeinterfacialmodificationontheperformanceoflaminatedflexibleitofreeorganicsolarcells
AT lintaohou effectofanodeinterfacialmodificationontheperformanceoflaminatedflexibleitofreeorganicsolarcells
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