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Hauptverfasser: Faraji, Mehrdad, Schleusener, Alexander, Abkenar, Sirous Khabbaz, Griesi, Andrea, Lizzano, Mattia, Saini, Sudhir Kumar, Asaithambi, Aswin V., Manna, Liberato, Lorenzoni, Matteo, Prato, Mirko, Divitini, Giorgio, Krahne, Roman
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2512.13299
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author Faraji, Mehrdad
Schleusener, Alexander
Abkenar, Sirous Khabbaz
Griesi, Andrea
Lizzano, Mattia
Saini, Sudhir Kumar
Asaithambi, Aswin V.
Manna, Liberato
Lorenzoni, Matteo
Prato, Mirko
Divitini, Giorgio
Krahne, Roman
author_facet Faraji, Mehrdad
Schleusener, Alexander
Abkenar, Sirous Khabbaz
Griesi, Andrea
Lizzano, Mattia
Saini, Sudhir Kumar
Asaithambi, Aswin V.
Manna, Liberato
Lorenzoni, Matteo
Prato, Mirko
Divitini, Giorgio
Krahne, Roman
contents Low-dimensional metal halide perovskites provide exciting opportunities to fabricate new semiconductor materials. Semiconductor technology relies on electronic heterojunctions, and cost-efficient and flexible approaches to realize functional heterostructures are of fundamental importance. Lateral heterostructures define the energy landscape in the plane of the semiconducting lattice in such 2D materials, representing an ideal platform to tailor energy barriers and to control charge carrier flow. Here, we demonstrate a versatile one-pot synthesis to fabricate a large variety of 2D perovskite heterostructures based on different halides and/or metal cations. Exploiting sequential crystallization of different 2D perovskites, and playing with the composition and injection events of the materials, enables the design of diverse heterostructure architectures including multiple heterojunctions. We obtain crystalline quality of the heterojunctions, multicolor emission, and optical coupling between the different heterostructure regions. We foresee that the design freedom of our method will stimulate the development of novel optoelectronic devices where electronic band engineering is crucial.
format Preprint
id arxiv_https___arxiv_org_abs_2512_13299
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Heterostructure Design in Two-Dimensional Perovskites by Sequential Recrystallization
Faraji, Mehrdad
Schleusener, Alexander
Abkenar, Sirous Khabbaz
Griesi, Andrea
Lizzano, Mattia
Saini, Sudhir Kumar
Asaithambi, Aswin V.
Manna, Liberato
Lorenzoni, Matteo
Prato, Mirko
Divitini, Giorgio
Krahne, Roman
Materials Science
Low-dimensional metal halide perovskites provide exciting opportunities to fabricate new semiconductor materials. Semiconductor technology relies on electronic heterojunctions, and cost-efficient and flexible approaches to realize functional heterostructures are of fundamental importance. Lateral heterostructures define the energy landscape in the plane of the semiconducting lattice in such 2D materials, representing an ideal platform to tailor energy barriers and to control charge carrier flow. Here, we demonstrate a versatile one-pot synthesis to fabricate a large variety of 2D perovskite heterostructures based on different halides and/or metal cations. Exploiting sequential crystallization of different 2D perovskites, and playing with the composition and injection events of the materials, enables the design of diverse heterostructure architectures including multiple heterojunctions. We obtain crystalline quality of the heterojunctions, multicolor emission, and optical coupling between the different heterostructure regions. We foresee that the design freedom of our method will stimulate the development of novel optoelectronic devices where electronic band engineering is crucial.
title Heterostructure Design in Two-Dimensional Perovskites by Sequential Recrystallization
topic Materials Science
url https://arxiv.org/abs/2512.13299