Operando dynamics of trapped carriers in perovskite solar cells observed via infrared optical activation spectroscopy

Jiaxin Pan; Ziming Chen; Tiankai Zhang; Beier Hu; Haoqing Ning; Zhu Meng; Ziyu Su; Davide Nodari; Weidong Xu; Ganghong Min; Mengyun Chen; Xianjie Liu; Nicola Gasparini; Saif A. Haque; Piers R. F. Barnes; Feng Gao; Artem A. Bakulin

doi:10.1038/s41467-023-43852-5

Nature Communications (Dec 2023)

Operando dynamics of trapped carriers in perovskite solar cells observed via infrared optical activation spectroscopy

Jiaxin Pan,
Ziming Chen,
Tiankai Zhang,
Beier Hu,
Haoqing Ning,
Zhu Meng,
Ziyu Su,
Davide Nodari,
Weidong Xu,
Ganghong Min,
Mengyun Chen,
Xianjie Liu,
Nicola Gasparini,
Saif A. Haque,
Piers R. F. Barnes,
Feng Gao,
Artem A. Bakulin

Affiliations

Jiaxin Pan: Department of Chemistry and Centre for Processible Electronics, Imperial College London
Ziming Chen: Department of Chemistry and Centre for Processible Electronics, Imperial College London
Tiankai Zhang: Department of Physics, Chemistry and Biology (IFM), Linköping University
Beier Hu: Department of Chemistry and Centre for Processible Electronics, Imperial College London
Haoqing Ning: Department of Chemistry and Centre for Processible Electronics, Imperial College London
Zhu Meng: Department of Chemistry and Centre for Processible Electronics, Imperial College London
Ziyu Su: Department of Chemistry and Centre for Processible Electronics, Imperial College London
Davide Nodari: Department of Chemistry and Centre for Processible Electronics, Imperial College London
Weidong Xu: Department of Chemistry and Centre for Processible Electronics, Imperial College London
Ganghong Min: Department of Chemistry and Centre for Processible Electronics, Imperial College London
Mengyun Chen: Department of Physics, Chemistry and Biology (IFM), Linköping University
Xianjie Liu: Laboratory of Organic Electronics, ITN, Linköping University
Nicola Gasparini: Department of Chemistry and Centre for Processible Electronics, Imperial College London
Saif A. Haque: Department of Chemistry and Centre for Processible Electronics, Imperial College London
Piers R. F. Barnes: Department of Physics, Imperial College London
Feng Gao: Department of Physics, Chemistry and Biology (IFM), Linköping University
Artem A. Bakulin: Department of Chemistry and Centre for Processible Electronics, Imperial College London

DOI: https://doi.org/10.1038/s41467-023-43852-5
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 10

Abstract

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Abstract Conventional spectroscopies are not sufficiently selective to comprehensively understand the behaviour of trapped carriers in perovskite solar cells, particularly under their working conditions. Here we use infrared optical activation spectroscopy (i.e., pump-push-photocurrent), to observe the properties and real-time dynamics of trapped carriers within operando perovskite solar cells. We compare behaviour differences of trapped holes in pristine and surface-passivated FA0.99Cs0.01PbI3 devices using a combination of quasi-steady-state and nanosecond time-resolved pump-push-photocurrent, as well as kinetic and drift-diffusion models. We find a two-step trap-filling process: the rapid filling (~10 ns) of low-density traps in the bulk of perovskite, followed by the slower filling (~100 ns) of high-density traps at the perovskite/hole transport material interface. Surface passivation by n-octylammonium iodide dramatically reduces the number of trap states (~50 times), improving the device performance substantially. Moreover, the activation energy (~280 meV) of the dominant hole traps remains similar with and without surface passivation.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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