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Rational Design of the Alkali Metal Sn‐Based Mixed Halides with Large Birefringence and Wide Transparent Range

Jun-Bo Wang, Mengmeng Zhu, Yaoqing Chu, Jindan Tian, Lili Liu, Bingbing Zhang, P. Shiv Halasyamani

2023Small43 citationsDOI

Abstract

Abstract Birefringent materials are widely used in various advanced optical systems, owing to their vital role in creating and controlling polarized light. Currently, Sn 2+ ‐based compounds containing stereochemically active lone‐pair (SCALP) cations are extensively investigated and considered as one class of promising birefringent materials. To solve the problem of relatively narrow bandgap of Sn 2+ ‐based compounds, alkali metals and multiple halogens are introduced to widen the bandgap during the research. Based on this strategy, four new Sn 2+ ‐based halides, A 2 Sn 2 F 5 Cl and ASnFCl 2 (A = Rb and Cs), with large birefringence, short ultraviolet (UV) cutoff edge, and wide transparent range are successfully found. The birefringences of A 2 Sn 2 F 5 Cl (A = Rb and Cs) are 0.31 and 0.28 at 532 nm, respectively, which are among the largest in Sn‐based halide family. Remarkably, A 2 Sn 2 F 5 Cl possess relatively shorter UV cutoff edge (<300 nm) and broad infrared (IR) transparent range (up to 16.6 µm), so they can become promising candidates as birefringent materials applied in both UV and IR regions. In addition, a comprehensive analysis on crystal structures and structure–property relationship of metal Sn 2+ ‐based halides is performed to fully understand this family. Therefore, this work provides insights into designing birefringent materials with balanced optical properties.

Topics & Concepts

BirefringenceHalideMaterials scienceBand gapHalogenAlkali metalUltravioletLone pairMetal halidesOptoelectronicsCrystallographyInorganic chemistryOpticsChemistryOrganic chemistryMoleculePhysicsAlkylPerovskite Materials and ApplicationsCrystal Structures and PropertiesSolid-state spectroscopy and crystallography