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Bending durable and recyclable mesostructured perovskite solar cells based on superaligned ZnO nanorod electrode

Bending durable and recyclable mesostructured perovskite solar cells based on superaligned ZnO nanorod electrode
Bending durable and recyclable mesostructured perovskite solar cells based on superaligned ZnO nanorod electrode
Though high-quality perovskite films can be achieved under low-temperature, the efficient charge selective materials, such as the most widely used TiO2, require high-temperature sintering process, hindering mass production with roll-to-roll process by using flexible substrate. Here, a low-temperature (90 °C) process is developed for preparing superaligned ZnO nanorods (SAZNRs), serving as mesostructured scaffold in direct contact with the perovskite layer. By rational design of the length of the SAZNRs, the perovskite solar cell (PSC), reaches a highest power conversion efficiency of ≈13.8% with largely suppressed hysteresis behavior. More importantly, this nano-array design demonstrates outstanding mechanical robustness after being incorporated onto the flexible substrate, resulting in a performance preservation of 90% after 1000 bending cycles with a curvature radius of 4 mm. Finite element analysis indicate that the reduction of device performance after bending is ascribed to the cracks occurred in AZO stress concentration layer, which is attested by experiment as well. Besides, the SAZNRs ETM can be reused for fabricating new perovskite solar cells with comparable photovoltaic performance in a time-saving and scalable manner, paving the way for industrial production of PSCs.
bending test, flexible, perovskite solar cells, recyclable, zinc oxide nanorods
2367-198X
Zhao, Xingyue
93447797-2c31-4cc2-a408-ce9acad88452
Shen, Heping
c366a1b5-a39c-4fe1-93bc-3a2128c7ef22
Sun, Rujie
e3dad16d-6c79-4972-8378-edca28a3babd
Luo, Qiang
d9209984-d28b-43c3-a162-6762c3c568ae
Li, Xin
6b9a2b5e-08a6-4c37-8806-3a82be5fe6b1
Zhou, Yu
775d8c0f-0d7c-4ee1-895d-79fcf9e512f2
Tai, Meiqian
3cfd28e2-b9cb-406c-8506-72edc70bf24e
Li, Jianbao
92a27017-7576-4062-946f-6e036930cf41
Gao, Yanfeng
6218149d-d8ac-404b-bf6f-5124df5c8d4c
Li, Xin
ca934b2f-d1e0-4dd5-809e-a3f0908abb7b
Lin, Hong
72670986-08b5-4385-b50c-04155b37e678
Zhao, Xingyue
93447797-2c31-4cc2-a408-ce9acad88452
Shen, Heping
c366a1b5-a39c-4fe1-93bc-3a2128c7ef22
Sun, Rujie
e3dad16d-6c79-4972-8378-edca28a3babd
Luo, Qiang
d9209984-d28b-43c3-a162-6762c3c568ae
Li, Xin
6b9a2b5e-08a6-4c37-8806-3a82be5fe6b1
Zhou, Yu
775d8c0f-0d7c-4ee1-895d-79fcf9e512f2
Tai, Meiqian
3cfd28e2-b9cb-406c-8506-72edc70bf24e
Li, Jianbao
92a27017-7576-4062-946f-6e036930cf41
Gao, Yanfeng
6218149d-d8ac-404b-bf6f-5124df5c8d4c
Li, Xin
ca934b2f-d1e0-4dd5-809e-a3f0908abb7b
Lin, Hong
72670986-08b5-4385-b50c-04155b37e678

Zhao, Xingyue, Shen, Heping, Sun, Rujie, Luo, Qiang, Li, Xin, Zhou, Yu, Tai, Meiqian, Li, Jianbao, Gao, Yanfeng, Li, Xin and Lin, Hong (2018) Bending durable and recyclable mesostructured perovskite solar cells based on superaligned ZnO nanorod electrode. Solar RRL, 2 (5), [1700194]. (doi:10.1002/solr.201700194).

Record type: Article

Abstract

Though high-quality perovskite films can be achieved under low-temperature, the efficient charge selective materials, such as the most widely used TiO2, require high-temperature sintering process, hindering mass production with roll-to-roll process by using flexible substrate. Here, a low-temperature (90 °C) process is developed for preparing superaligned ZnO nanorods (SAZNRs), serving as mesostructured scaffold in direct contact with the perovskite layer. By rational design of the length of the SAZNRs, the perovskite solar cell (PSC), reaches a highest power conversion efficiency of ≈13.8% with largely suppressed hysteresis behavior. More importantly, this nano-array design demonstrates outstanding mechanical robustness after being incorporated onto the flexible substrate, resulting in a performance preservation of 90% after 1000 bending cycles with a curvature radius of 4 mm. Finite element analysis indicate that the reduction of device performance after bending is ascribed to the cracks occurred in AZO stress concentration layer, which is attested by experiment as well. Besides, the SAZNRs ETM can be reused for fabricating new perovskite solar cells with comparable photovoltaic performance in a time-saving and scalable manner, paving the way for industrial production of PSCs.

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More information

e-pub ahead of print date: 28 February 2018
Published date: 13 May 2018
Keywords: bending test, flexible, perovskite solar cells, recyclable, zinc oxide nanorods

Identifiers

Local EPrints ID: 486759
URI: http://eprints.soton.ac.uk/id/eprint/486759
DOI: doi:10.1002/solr.201700194
ISSN: 2367-198X
PURE UUID: cd8bcdec-fb78-45bd-aa8e-15d74dfc9069

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Date deposited: 06 Feb 2024 17:31
Last modified: 17 Mar 2024 07:24

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Contributors

Author: Xingyue Zhao
Author: Heping Shen
Author: Rujie Sun
Author: Qiang Luo
Author: Xin Li
Author: Yu Zhou
Author: Meiqian Tai
Author: Jianbao Li
Author: Yanfeng Gao
Author: Xin Li
Author: Hong Lin

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