Journal article

Tunable interlayer delocalization of excitons in layered organic-inorganic halide perovskites

Abstract:: Layered organic-inorganic halide perovskites exhibit remarkable structural and chemical diversity and hold great promise for optoelectronic devices. In these materials, excitons are thought to be strongly confined within the inorganic metal halide layers with interlayer coupling generally suppressed by the organic cations. Here, we present an in-depth study of the energy and spatial distribution of the lowest-energy excitons in layered organic-inorganic halide perovskites from first-principles many-body perturbation theory, within the GW approximation and the Bethe-Salpeter equation. We find that the quasiparticle band structures, linear absorption spectra, and exciton binding energies depend strongly on the distance and the alignment of adjacent metal halide perovskite layers. Furthermore, we show that exciton delocalization can be modulated by tuning the interlayer distance and alignment, both parameters determined by the chemical composition and size of the organic cations. Our calculations establish the general intuition needed to engineer excitonic properties in novel halide perovskite nanostructures.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Chen, Y., & Filip, M. R. (2023). Tunable interlayer delocalization of excitons in layered organic-inorganic halide perovskites. Journal of Physical Chemistry Letters, 14(47), 10634–10641.

MLA Style

Chen, Y., and M. R. Filip. “Tunable Interlayer Delocalization of Excitons in Layered Organic-Inorganic Halide Perovskites.” Journal of Physical Chemistry Letters, vol. 14, no. 47, American Chemical Society, 2023, pp. 10634–41.

Chicago Style

Chen, Y, and MR Filip. 2023. “Tunable Interlayer Delocalization of Excitons in Layered Organic-Inorganic Halide Perovskites.” Journal of Physical Chemistry Letters 14 (47): 10634–41.
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Files:: Chen_Filip_2023_Tunable_Interlayer_Delocalization.pdf

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Publisher copy:: 10.1021/acs.jpclett.3c02339

Authors

+ Chen, Y More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Physics
Role:: Author
ORCID:: 0000-0002-0173-6197

+ Filip, MR More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Physics
Oxford college:: Trinity College
Role:: Author
ORCID:: 0000-0003-2925-172X

Publisher:: American Chemical Society
Journal:: Journal of Physical Chemistry Letters More from this journal
Volume:: 14
Issue:: 47
Pages:: 10634–10641
Place of publication:: United States
Publication date:: 2023-11-20
Acceptance date:: 2023-11-09
DOI:: 10.1021/acs.jpclett.3c02339
EISSN:: 1948-7185
Pmid:: 37983171

Language:: English
Keywords:: FFR
Pubs id:: 1568971
Local pid:: pubs:1568971
Deposit date:: 2023-11-24

Terms of use

Copyright holder:: Chen and Filip
Copyright date:: 2023
Rights statement:: © 2023 The Authors. Published by American Chemical Society. This publication is licensed under CC-BY 4.0.

Licence:: CC Attribution (CC BY)

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