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AX·(H 2 SeO 3 ) n (A = K, Cs; X = Cl, Br; n = 1, 2): A Series of Ionic Cocrystals as Promising UV Birefringent Materials with Large Birefringence and Wide Band Gap.

Mengmeng ZhuJunbo WangLei HouYiwen YuanLili LiuYaoqing ChuChun-Mei Huang
Published in: Inorganic chemistry (2024)
The design and syntheses of new birefringent crystals will be of great importance in commercial applications and materials science. A series of ultraviolet (UV) birefringent crystals, AX·(H 2 SeO 3 ) n (A = K, Cs; X = Cl, Br; n = 1, 2), with large sizes up to 23 × 6 × 3 mm 3 , was successfully synthesized by simple aqueous solution method. These four compounds belong to three different space groups. Isomorphic KCl·(H 2 SeO 3 ) 2 and CsCl·(H 2 SeO 3 ) 2 crystallize in the P 1 ¯ space group, while CsBr·(H 2 SeO 3 ) 2 and CsCl·H 2 SeO 3 crystallize in the P 2 1 / m and P 2 1 / c space groups, respectively. They exhibit cocrystal structures composed of [2(H 2 SeO 3 )] ∞ and [AX] ∞ frameworks, ingeniously inheriting the large optical anisotropy of selenite and the wide band gap of alkali metal halide. And it proves that these compounds indeed possess large birefringence (0.1-0.17 at 532 nm) and short UV cutoff edges (227-239 nm), achieving a balance of optical properties. This research affords a simple and viable strategy for the design and syntheses of new UV birefringent crystals. Besides, it is also found that the n value and ionic size (A and X ions) have important influences on the crystal structures and optical properties of AX·(H 2 SeO 3 ) n . And this will promote further understanding of the alkali metal halide selenite family.
Keyphrases
  • aqueous solution
  • room temperature
  • public health
  • solid state