Regulating Second-Harmonic Generation in 2D Chiral Perovskites Through Achiral Organic Spacer Cation Alloying Strategy

IF 9.8 1区 物理与天体物理 Q1 OPTICS
Junzi Li, Zhihang Guo, Meiting Wang, Yonghong Shao, Yi Chen, Yan Qin, Wenjing Zhang, Changshun Wang, Hao Jin, Luyang Wang, Tingchao He
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Abstract

The inherent structural flexibility and chiroptical activity of 2D chiral perovskites make them promising for the nonlinear optical (NLO) application. A comprehensive understanding of the second-harmonic generation (SHG) mechanism in 2D chiral perovskites is essential for developing NLO devices. However, the rational design of 2D chiral perovskite structures to regulate SHG properties remains challenging. Herein, to regulate SHG response, an achiral organic spacer cation alloying strategy is employed to construct a series of 2D chiral perovskites. Through the measurement of temperature-dependent photoluminescence (PL) spectra, it is revealed that the material design strategy can effectively modulating self-trapped exciton (STE) emission. More importantly, it is confirmed that there is a competitive relationship between STE emission and SHG in 2D chiral perovskites. Meanwhile, the microscopic imaging of circularly polarized-SHG is demonstrated in chiral perovskites. This work will not only advance the understanding of the SHG mechanism in 2D chiral perovskites but also provide inspiration for the rational design and synthesis of perovskites for NLO devices.

Abstract Image

通过手性有机间隔阳离子合金化策略调控二维手性包光体中的二次谐波发生
二维手性包光体固有的结构灵活性和自旋光学活性使其在非线性光学(NLO)应用中大有可为。全面了解二维手性包光体中的二次谐波发生(SHG)机制对于开发 NLO 器件至关重要。然而,如何合理设计二维手性包晶结构以调节 SHG 特性仍然是一项挑战。在本文中,为了调节 SHG 响应,我们采用了非手性有机间隔阳离子合金化策略来构建一系列二维手性包光体。通过测量随温度变化的光致发光(PL)光谱,发现该材料设计策略能有效调节自俘获激子(STE)发射。更重要的是,研究证实了二维手性包光体中的 STE 发射与 SHG 之间存在竞争关系。同时,在手性包晶石中演示了圆偏振-SHG 的显微成像。这项工作不仅将推进人们对二维手性包晶中 SHG 机制的理解,还将为合理设计和合成用于 NLO 器件的包晶提供灵感。
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来源期刊
CiteScore
14.20
自引率
5.50%
发文量
314
审稿时长
2 months
期刊介绍: Laser & Photonics Reviews is a reputable journal that publishes high-quality Reviews, original Research Articles, and Perspectives in the field of photonics and optics. It covers both theoretical and experimental aspects, including recent groundbreaking research, specific advancements, and innovative applications. As evidence of its impact and recognition, Laser & Photonics Reviews boasts a remarkable 2022 Impact Factor of 11.0, according to the Journal Citation Reports from Clarivate Analytics (2023). Moreover, it holds impressive rankings in the InCites Journal Citation Reports: in 2021, it was ranked 6th out of 101 in the field of Optics, 15th out of 161 in Applied Physics, and 12th out of 69 in Condensed Matter Physics. The journal uses the ISSN numbers 1863-8880 for print and 1863-8899 for online publications.
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