Stable Sn-Based Hybrid Perovskite-Related Structures with Tunable Color Coordinates Via Organic Cations in Low-Temperature Synthesis

Overview

Journal ACS Energy Lett

Publisher American Chemical Society

Date 2023 Jun 16

PMID 37324542

Authors

Aarya Prabhakaran

Balaji Dhanabalan

Iryna Andrusenko

Andrea Pianetti

Simone Lauciello

Mirko Prato

Sergio Marras

Pavlo Solokha

Mauro Gemmi

Sergio Brovelli

Liberato Manna

Milena P Arciniegas

Affiliations

Soon will be listed here.

Abstract

Organic-inorganic Pb-free layered perovskites are efficient broadband emitters and thus are promising materials for lighting applications. However, their synthetic protocols require a controlled atmosphere, high temperature, and long preparation time. This hinders the potential tunability of their emission through organic cations, as is instead common practice in Pb-based structures. Here, we present a set of Sn-Br layered perovskite-related structures that display different chromaticity coordinates and photoluminescence quantum yield (PLQY) up to 80%, depending on the choice of the organic monocation. We first develop a synthetic protocol that is performed under air and at 4 °C, requiring only a few steps. X-ray and 3D electron diffraction analyses show that the structures exhibit diverse octahedra connectivity (disconnected and face-sharing) and thus optical properties, while preserving the organic-inorganic layer intercalation. These results provide key insight into a previously underexplored strategy to tune the color coordinates of Pb-free layered perovskites through organic cations with complex molecular configurations.

Citing Articles

Synthesis of Hybrid Tin-Based Perovskite Microcrystals for LED Applications.

Sanchez-Diaz J, Rodriguez-Pereira J, Das Adhikari S, Mora-Sero I Adv Sci (Weinh). 2024; 11(34):e2403835.

PMID: 38973344 PMC: 11425840. DOI: 10.1002/advs.202403835.

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