PbF2–CdF2–SrF2三元固溶体的晶体生长与研究

IF 1.9 Q3 PHYSICS, CONDENSED MATTER

Condensed Matter Pub Date : 2023-08-16 DOI:10.3390/condmat8030073

I. I. Buchinskaya, I. O. Goryachuk, N. Sorokin, V. Sokolov, D. Karimov

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引用次数: 0

摘要

基于碱土金属二氟化物的晶体是广泛使用的光学材料。在本研究中，为了扩大光学基质的范围，首次使用垂直定向结晶技术从熔体中生长出具有萤石结构的多组分Pb1−x−yCdxSryF2（0.27＜x＜0.55，0.06＜y＜0.18）固溶体晶体（sp.gr.Fm-3m）。生长晶体的密度和折射率根据定量含量组分（x和y）的不同而变化，分别在6.6039（5）–7.5232（5）g/cm3和1.6403–1.7084的范围内。研究了其光透射光谱和电化学阻抗谱。该三元固溶体在6 mm/h的结晶速率和80°/cm的界面温度梯度下的非细胞结晶的均匀组成区域被实验确定为0.30本文章由计算机程序翻译，如有差异，请以英文原文为准。

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PbF2–CdF2–SrF2 Ternary Solid Solution: Crystal Growth and Investigation

Crystals based on alkaline earth metal difluorides are widely used optical materials. In this study, in order to expand the range of optical matrices, multicomponent Pb1−x−yCdxSryF2 (0.27 < x < 0.55, 0.06 < y < 0.18) solid solution crystals with a fluorite structure (sp. gr. Fm-3m) were grown from melt using the vertical directional crystallization technique for the first time. The densities and refractive indices of the grown crystals vary depending on the quantitative content components (x and y) in the ranges of 6.6039(5)–7.5232(5) g/cm3 and 1.6403–1.7084, respectively. The optical transmission and electrochemical impedance spectra were studied. The homogenous composition regions of non-cellular crystallization of this ternary solid solution at a crystallization rate of 6 mm/h and an interface temperature gradient of 80 deg/cm were experimentally determined as 0.30 < x < 0.35, 0 < y < 0.6. These grown crystalline materials may be of interest as high-density highly refractive cubic isomorphic hosts and low-temperature ionic conductors (~2 × 10−5 S/cm at room temperature) for various applications.