Interpenetrating interfaces for efficient perovskite solar cells with high operational stability and mechanical robustness

Interpenetrating interfaces for efficient perovskite solar cells with high operational stability and mechanical robustness

Operational stability and mechanical robustness remain as engineering bottlenecks in perovskite solar cells technology. Here, Dong et al. introduce an interpenetrating perovskite at the electron-transporting-layer interface that enables a 1000-hour stable operation and high endurance against bending...

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Main Authors: Qingshun Dong, Chao Zhu, Min Chen, Chen Jiang, Jingya Guo, Yulin Feng, Zhenghong Dai, Srinivas K. Yadavalli, Mingyu Hu, Xun Cao, Yuqian Li, Yizhong Huang, Zheng Liu, Yantao Shi, Liduo Wang, Nitin P. Padture, Yuanyuan Zhou
Format: Article
Language:English
Published: Nature Publishing Group 2021-02-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-021-21292-3
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spelling doaj-db96d10b842b45b4aebd8b721c75678c2021-02-14T12:11:40ZengNature Publishing GroupNature Communications2041-17232021-02-011211910.1038/s41467-021-21292-3Interpenetrating interfaces for efficient perovskite solar cells with high operational stability and mechanical robustnessQingshun Dong0Chao Zhu1Min Chen2Chen Jiang3Jingya Guo4Yulin Feng5Zhenghong Dai6Srinivas K. Yadavalli7Mingyu Hu8Xun Cao9Yuqian Li10Yizhong Huang11Zheng Liu12Yantao Shi13Liduo Wang14Nitin P. Padture15Yuanyuan Zhou16State Key Laboratory of Fine Chemicals, Department of Chemistry, School of Chemical Engineering, Dalian University of TechnologySEU-FEI Nano-Pico Center, Key Laboratory of MEMS of Ministry of Education, Collaborative Innovation Center for Micro/Nano Fabrication, Device and System, Southeast UniversitySchool of Engineering, Brown UniversityState Key Laboratory of Fine Chemicals, Department of Chemistry, School of Chemical Engineering, Dalian University of TechnologyState Key Laboratory of Fine Chemicals, Department of Chemistry, School of Chemical Engineering, Dalian University of TechnologyState Key Laboratory of Fine Chemicals, Department of Chemistry, School of Chemical Engineering, Dalian University of TechnologySchool of Engineering, Brown UniversitySchool of Engineering, Brown UniversitySchool of Engineering, Brown UniversitySchool of Materials Science and Engineering, Nanyang Technological UniversityAnalysis and Test Center, Beijing University of Chemical TechnologySchool of Materials Science and Engineering, Nanyang Technological UniversitySchool of Materials Science and Engineering, Nanyang Technological UniversityState Key Laboratory of Fine Chemicals, Department of Chemistry, School of Chemical Engineering, Dalian University of TechnologyDepartment of Chemistry, Tsinghua UniversitySchool of Engineering, Brown UniversitySchool of Engineering, Brown UniversityOperational stability and mechanical robustness remain as engineering bottlenecks in perovskite solar cells technology. Here, Dong et al. introduce an interpenetrating perovskite at the electron-transporting-layer interface that enables a 1000-hour stable operation and high endurance against bending fatigue over 2500 cycles.https://doi.org/10.1038/s41467-021-21292-3
collection DOAJ
language English
format Article
sources DOAJ
author Qingshun Dong
Chao Zhu
Min Chen
Chen Jiang
Jingya Guo
Yulin Feng
Zhenghong Dai
Srinivas K. Yadavalli
Mingyu Hu
Xun Cao
Yuqian Li
Yizhong Huang
Zheng Liu
Yantao Shi
Liduo Wang
Nitin P. Padture
Yuanyuan Zhou
spellingShingle Qingshun Dong
Chao Zhu
Min Chen
Chen Jiang
Jingya Guo
Yulin Feng
Zhenghong Dai
Srinivas K. Yadavalli
Mingyu Hu
Xun Cao
Yuqian Li
Yizhong Huang
Zheng Liu
Yantao Shi
Liduo Wang
Nitin P. Padture
Yuanyuan Zhou
Interpenetrating interfaces for efficient perovskite solar cells with high operational stability and mechanical robustness
Nature Communications
author_facet Qingshun Dong
Chao Zhu
Min Chen
Chen Jiang
Jingya Guo
Yulin Feng
Zhenghong Dai
Srinivas K. Yadavalli
Mingyu Hu
Xun Cao
Yuqian Li
Yizhong Huang
Zheng Liu
Yantao Shi
Liduo Wang
Nitin P. Padture
Yuanyuan Zhou
author_sort Qingshun Dong
title Interpenetrating interfaces for efficient perovskite solar cells with high operational stability and mechanical robustness
title_short Interpenetrating interfaces for efficient perovskite solar cells with high operational stability and mechanical robustness
title_full Interpenetrating interfaces for efficient perovskite solar cells with high operational stability and mechanical robustness
title_fullStr Interpenetrating interfaces for efficient perovskite solar cells with high operational stability and mechanical robustness
title_full_unstemmed Interpenetrating interfaces for efficient perovskite solar cells with high operational stability and mechanical robustness
title_sort interpenetrating interfaces for efficient perovskite solar cells with high operational stability and mechanical robustness
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2021-02-01
description Operational stability and mechanical robustness remain as engineering bottlenecks in perovskite solar cells technology. Here, Dong et al. introduce an interpenetrating perovskite at the electron-transporting-layer interface that enables a 1000-hour stable operation and high endurance against bending fatigue over 2500 cycles.
url https://doi.org/10.1038/s41467-021-21292-3
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