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Migration of cations induces reversible performance losses over day/night cycling in perovskite solar cells

Migration of cations induces reversible performance losses over day/night cycling in perovskite solar cells
Migration of cations induces reversible performance losses over day/night cycling in perovskite solar cells
Perovskites have been demonstrated in solar cells with power conversion efficiency well above 20%, which makes them one of the strongest contenders for the next generation photovoltaics. While there are no concerns about their efficiency, very little is known about their stability under illumination and load. Ionic defects and their migration in the perovskite crystal lattice are one of the most alarming sources of degradation, which can potentially prevent the commercialization of perovskite solar cells (PSCs). In this work, we provide direct evidence of electric field-induced ionic defect migration and we isolate their effect on the long-term performance of state-of-the-art devices. Supported by modelling, we demonstrate that ionic defects, migrating on timescales significantly longer (above 103 s) than what has so far been explored (from 10-1 to 102 s), abate the initial efficiency by 10-15% after several hours of operation at the maximum power point. Though these losses are not negligible, we prove that the initial efficiency is fully recovered when leaving the device in the dark for a comparable amount of time. We verified this behaviour over several cycles resembling day/night phases, thus probing the stability of PSCs under native working conditions. This unusual behaviour reveals, that research and industrial standards currently in use to assess the performance and the stability of solar cells need to be adjusted for PSCs. Our work paves the way towards much needed new testing protocols and figures of merit specifically designed for PSCs.
1754-5692
1-24
Domanski, Konrad
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Roose, Bart
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Matsui, Taisuke
50d7d205-58d8-42a6-a637-e59485687dc2
Saliba, Michael
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Turren-Cruz, Silver-Hamill
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Correa-Baena, Juan-Pablo
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Carmona, Christina
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Richardson, Giles
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Foster, Jamie
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De Angelis, Fillipo
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Ball, James
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Petrozza, Annamaria
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Mine, Nicolas
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Nazeeruddin, Mohammed
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Tress, Wolfgang
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Graetzel, Michael
effd9729-c5d3-4819-8e9d-b4397b35dbae
Steiner, Ullrich
839dfd85-73db-4125-b9e9-775296f6411f
Hagfeldt, Anders
51e174f3-24c8-4386-95a2-fdc0eb7fa0d2
Abate, Antonio
509f3e64-115d-48f9-8df5-c588998c192d
Domanski, Konrad
451fac3a-5dd2-4cc9-9932-3b6bca86fd3d
Roose, Bart
c7a7e0b3-d881-4f1e-b2c4-9f033f68353c
Matsui, Taisuke
50d7d205-58d8-42a6-a637-e59485687dc2
Saliba, Michael
10019a6a-9edc-439c-b95b-d12134075e3e
Turren-Cruz, Silver-Hamill
481ecf9c-28e6-437b-a0bc-7090a2d753eb
Correa-Baena, Juan-Pablo
2fa12ecc-9b79-4187-a46a-5dffc9b400fd
Carmona, Christina
b8108c3e-33ac-456c-a204-ca59dc8b15b7
Richardson, Giles
3fd8e08f-e615-42bb-a1ff-3346c5847b91
Foster, Jamie
6b1c0d1d-d594-4495-963f-573f2f0d1d19
De Angelis, Fillipo
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Ball, James
9ec2fada-5100-4b00-a8a2-6ba9b6640b70
Petrozza, Annamaria
3b0b0eb2-0084-4ee2-a320-930e9284b736
Mine, Nicolas
0f529c20-f41a-4f08-92a8-ad7de4684a5f
Nazeeruddin, Mohammed
ac4a9393-e421-4c49-90e9-e4e8a6b0557e
Tress, Wolfgang
ce8b5426-cb5f-4bc2-a380-34d6b5441a41
Graetzel, Michael
effd9729-c5d3-4819-8e9d-b4397b35dbae
Steiner, Ullrich
839dfd85-73db-4125-b9e9-775296f6411f
Hagfeldt, Anders
51e174f3-24c8-4386-95a2-fdc0eb7fa0d2
Abate, Antonio
509f3e64-115d-48f9-8df5-c588998c192d

Domanski, Konrad, Roose, Bart, Matsui, Taisuke, Saliba, Michael, Turren-Cruz, Silver-Hamill, Correa-Baena, Juan-Pablo, Carmona, Christina, Richardson, Giles, Foster, Jamie, De Angelis, Fillipo, Ball, James, Petrozza, Annamaria, Mine, Nicolas, Nazeeruddin, Mohammed, Tress, Wolfgang, Graetzel, Michael, Steiner, Ullrich, Hagfeldt, Anders and Abate, Antonio (2017) Migration of cations induces reversible performance losses over day/night cycling in perovskite solar cells. Energy & Environmental Science, 1-24. (doi:10.1039/C6EE03352K).

Record type: Article

Abstract

Perovskites have been demonstrated in solar cells with power conversion efficiency well above 20%, which makes them one of the strongest contenders for the next generation photovoltaics. While there are no concerns about their efficiency, very little is known about their stability under illumination and load. Ionic defects and their migration in the perovskite crystal lattice are one of the most alarming sources of degradation, which can potentially prevent the commercialization of perovskite solar cells (PSCs). In this work, we provide direct evidence of electric field-induced ionic defect migration and we isolate their effect on the long-term performance of state-of-the-art devices. Supported by modelling, we demonstrate that ionic defects, migrating on timescales significantly longer (above 103 s) than what has so far been explored (from 10-1 to 102 s), abate the initial efficiency by 10-15% after several hours of operation at the maximum power point. Though these losses are not negligible, we prove that the initial efficiency is fully recovered when leaving the device in the dark for a comparable amount of time. We verified this behaviour over several cycles resembling day/night phases, thus probing the stability of PSCs under native working conditions. This unusual behaviour reveals, that research and industrial standards currently in use to assess the performance and the stability of solar cells need to be adjusted for PSCs. Our work paves the way towards much needed new testing protocols and figures of merit specifically designed for PSCs.

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Accepted/In Press date: 10 January 2017
e-pub ahead of print date: 10 January 2017
Organisations: Applied Mathematics

Identifiers

Local EPrints ID: 404650
URI: http://eprints.soton.ac.uk/id/eprint/404650
DOI: doi:10.1039/C6EE03352K
ISSN: 1754-5692
PURE UUID: 0b5dca47-5872-4ee0-98c7-7bd5a29235f2
ORCID for Giles Richardson: ORCID iD orcid.org/0000-0001-6225-8590

Catalogue record

Date deposited: 13 Jan 2017 16:46
Last modified: 16 Mar 2024 04:00

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Contributors

Author: Konrad Domanski
Author: Bart Roose
Author: Taisuke Matsui
Author: Michael Saliba
Author: Silver-Hamill Turren-Cruz
Author: Juan-Pablo Correa-Baena
Author: Christina Carmona
Author: Giles Richardson ORCID iD
Author: Jamie Foster
Author: Fillipo De Angelis
Author: James Ball
Author: Annamaria Petrozza
Author: Nicolas Mine
Author: Mohammed Nazeeruddin
Author: Wolfgang Tress
Author: Michael Graetzel
Author: Ullrich Steiner
Author: Anders Hagfeldt
Author: Antonio Abate

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