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Enhanced UV-light stability of planar heterojunction perovskite solar cells with caesium bromide interface modification

Version 2 2024-03-12, 14:16
Version 1 2024-03-01, 09:37
journal contribution
posted on 2024-03-12, 14:16 authored by Wenzhe Li, Wei Zhang, Stephan Van Reenen, Rebecca J. Sutton, Jiandong Fan, Amir A. Haghighirad, Michael B. Johnston, Liduo Wang, Henry J. Snaith

Interfacial engineering has been shown to play a vital role in boosting the performance of perovskite solar cells in the past few years. Here we demonstrate that caesium bromide (CsBr), as an interfacial modifier between the electron collection layer and the CH3NH3PbI3?xClx absorber layer, can effectively enhance the stability of planar heterojunction devices under ultra violet (UV) light soaking. Additionally, the device performance is improved due to the alleviated defects at the perovskite-titania heterojunction and enhanced electron extraction.

History

School affiliated with

  • School of Chemistry (Research Outputs)

Publication Title

Energy and Environmental Science

Volume

9

Issue

2

Pages/Article Number

490-498

Publisher

Royal Society of Chemistry

External DOI

ISSN

1754-5692

eISSN

1754-5706

Date Submitted

2016-03-16

Date Accepted

2016-01-04

Date of First Publication

2016-01-04

Date of Final Publication

2016-09-01

Date Document First Uploaded

2016-03-15

ePrints ID

22662

Usage metrics

    University of Lincoln (Research Outputs)

    Categories

    Keywords

    caesium bromideNotOACheckedperovskite solar cellsUV-light stability

    Licence

    CC BY 4.0

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