Issue 11, 2023

Strong anisotropic second-order nonlinear optical responses in 0D lead-free chiral perovskite single-crystalline microwire arrays

Abstract

Low-dimensional hybrid organic–inorganic chiral perovskites with intrinsic non-centrosymmetric structures have shown promising potential for second-order nonlinear optical applications due to their structural diversity and large lattice distortions. Simultaneously, “structure-level” low-dimensional single crystal perovskites have attracted wide attention to meet the increasing demand of on-chip integrated nonlinear optical devices. Herein, we synthesized two new chiral hybrid 0D perovskites (R/S-MBA)4Bi2Cl10 based on the non-toxic element bismuth by introducing chiral R/S-MBA as the organic component. The highly ordered assembly microwire arrays were further prepared using a capillary-bridge confined technique. These high-crystallinity chiral perovskite microwire arrays preserve their structures with high distortion levels and achieve high-efficiency frequency conversion across a wide range of bands and different polarization states with a high polarization ratio of up to 0.992, which is superior to those of the corresponding polycrystalline films that cause undesirable light scattering. Such non-toxic Bi-based low-dimensional chiral perovskite single-crystalline microwire arrays with excellent NLO performances might provide a strategy for NLO-integrated applications in advancing photonic devices.

Graphical abstract: Strong anisotropic second-order nonlinear optical responses in 0D lead-free chiral perovskite single-crystalline microwire arrays

Supplementary files

Article information

Article type
Research Article
Submitted
31 Dec 2022
Accepted
22 Mar 2023
First published
24 Mar 2023

Inorg. Chem. Front., 2023,10, 3396-3405

Strong anisotropic second-order nonlinear optical responses in 0D lead-free chiral perovskite single-crystalline microwire arrays

M. Dong, B. Wang, Z. Yu, J. Zhao, X. Li, Y. Fu, Y. Guo, Y. Zhao, H. Gao, L. Jiang and Y. Wu, Inorg. Chem. Front., 2023, 10, 3396 DOI: 10.1039/D2QI02783F

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