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Main Authors: Coriolano, Annalisa, Moliterni, Anna, Todisco, Francesco, Polimeno, Laura, Mastria, Rosanna, Olieric, Vincent, Giacobbe, Carlotta, De Giorgi, Milena, Ballarini, Dario, Rizzo, Aurora, Gigli, Giuseppe, Giannini, Cinzia, Viola, Ilenia, Sanvitto, Daniele, De Marco, Luisa
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2307.15070
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author Coriolano, Annalisa
Moliterni, Anna
Todisco, Francesco
Polimeno, Laura
Mastria, Rosanna
Olieric, Vincent
Giacobbe, Carlotta
De Giorgi, Milena
Ballarini, Dario
Rizzo, Aurora
Gigli, Giuseppe
Giannini, Cinzia
Viola, Ilenia
Sanvitto, Daniele
De Marco, Luisa
author_facet Coriolano, Annalisa
Moliterni, Anna
Todisco, Francesco
Polimeno, Laura
Mastria, Rosanna
Olieric, Vincent
Giacobbe, Carlotta
De Giorgi, Milena
Ballarini, Dario
Rizzo, Aurora
Gigli, Giuseppe
Giannini, Cinzia
Viola, Ilenia
Sanvitto, Daniele
De Marco, Luisa
contents Hybrid two-dimensional perovskites hold considerable promise as semiconductors for a wide range of optoelectronic applications. Many efforts are addressed to exploit the potential of these materials by tailoring their characteristics. In this work, the optical properties and electronic band structure in three new Dion-Jacobson (DJ) perovskites (PVKs) are engineered by modulating their structural distortion. Two different interlayer cations: 1-6, Hexamethylendiammonium, HE, and 3-(Dimethylamino)-1-propylammonium, DMPA, have been selected to investigate the role of the cation length and the ammonium binding group on the crystalline structure. This study provides new insights into the understanding of the structure-property relationship in DJ perovskites and demonstrates that exciton characteristics can be easily modulated with the judicious design of the organic cations. DJ PVKs developed in this work were also grown as size-controlled single crystal microwires through a microfluidic-assisted synthesis technique and integrated in a nanophotonic device. The DJ PVK microwire acts as a waveguide exhibiting strong light-matter coupling between the crystal optical modes and DJ PVK exciton. Through the investigation of these polariton waveguides, the nature of the double peak emission, which is often observed in these materials and whose nature is largely debated in the literature, is demonstrated originating from the hybrid polariton state.
format Preprint
id arxiv_https___arxiv_org_abs_2307_15070
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Engineering Dion-Jacobson Perovskites in Polariton Waveguides
Coriolano, Annalisa
Moliterni, Anna
Todisco, Francesco
Polimeno, Laura
Mastria, Rosanna
Olieric, Vincent
Giacobbe, Carlotta
De Giorgi, Milena
Ballarini, Dario
Rizzo, Aurora
Gigli, Giuseppe
Giannini, Cinzia
Viola, Ilenia
Sanvitto, Daniele
De Marco, Luisa
Materials Science
Optics
Hybrid two-dimensional perovskites hold considerable promise as semiconductors for a wide range of optoelectronic applications. Many efforts are addressed to exploit the potential of these materials by tailoring their characteristics. In this work, the optical properties and electronic band structure in three new Dion-Jacobson (DJ) perovskites (PVKs) are engineered by modulating their structural distortion. Two different interlayer cations: 1-6, Hexamethylendiammonium, HE, and 3-(Dimethylamino)-1-propylammonium, DMPA, have been selected to investigate the role of the cation length and the ammonium binding group on the crystalline structure. This study provides new insights into the understanding of the structure-property relationship in DJ perovskites and demonstrates that exciton characteristics can be easily modulated with the judicious design of the organic cations. DJ PVKs developed in this work were also grown as size-controlled single crystal microwires through a microfluidic-assisted synthesis technique and integrated in a nanophotonic device. The DJ PVK microwire acts as a waveguide exhibiting strong light-matter coupling between the crystal optical modes and DJ PVK exciton. Through the investigation of these polariton waveguides, the nature of the double peak emission, which is often observed in these materials and whose nature is largely debated in the literature, is demonstrated originating from the hybrid polariton state.
title Engineering Dion-Jacobson Perovskites in Polariton Waveguides
topic Materials Science
Optics
url https://arxiv.org/abs/2307.15070