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Main Authors: Botka, Bea, Dodony, Erzsébet, Németh, Gergely, Stratton, Michael, Harsányi, Ildikó, Mózer, János, Kováts, Éva, Borondics, Ferenc, Kamarás, Katalin
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.19833
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author Botka, Bea
Dodony, Erzsébet
Németh, Gergely
Stratton, Michael
Harsányi, Ildikó
Mózer, János
Kováts, Éva
Borondics, Ferenc
Kamarás, Katalin
author_facet Botka, Bea
Dodony, Erzsébet
Németh, Gergely
Stratton, Michael
Harsányi, Ildikó
Mózer, János
Kováts, Éva
Borondics, Ferenc
Kamarás, Katalin
contents Light emissive nanostructures were prepared from boron nitride nanotubes (BNNTs) filled with inorganic lead halide perovskites. These one-dimensional nanocontainers provide a platform for facile synthesis of high aspect ratio perovskite quantum wires having color-tunable, highly polarized emission. BNNTs form a flexible and robust protective shell around individual nanowires, that mitigates degradation during post-processing for practical applications, while allowing to exploit the emission of the perovskite nanowires. The wire diameter can be tuned by choosing appropriate BNNT hosts, giving easy access to well-defined nanowires across the strongly quantum-confined diameter range. The individual encapsulated quantum wires can be used as building blocks for nanoscale photonic devices, and to create large-scale flexible assemblies.
format Preprint
id arxiv_https___arxiv_org_abs_2508_19833
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Emissive perovskite quantum wires in robust nanocontainers
Botka, Bea
Dodony, Erzsébet
Németh, Gergely
Stratton, Michael
Harsányi, Ildikó
Mózer, János
Kováts, Éva
Borondics, Ferenc
Kamarás, Katalin
Materials Science
Light emissive nanostructures were prepared from boron nitride nanotubes (BNNTs) filled with inorganic lead halide perovskites. These one-dimensional nanocontainers provide a platform for facile synthesis of high aspect ratio perovskite quantum wires having color-tunable, highly polarized emission. BNNTs form a flexible and robust protective shell around individual nanowires, that mitigates degradation during post-processing for practical applications, while allowing to exploit the emission of the perovskite nanowires. The wire diameter can be tuned by choosing appropriate BNNT hosts, giving easy access to well-defined nanowires across the strongly quantum-confined diameter range. The individual encapsulated quantum wires can be used as building blocks for nanoscale photonic devices, and to create large-scale flexible assemblies.
title Emissive perovskite quantum wires in robust nanocontainers
topic Materials Science
url https://arxiv.org/abs/2508.19833