Shear strength and optical bandgap in As2Se3 glasses permanently compacted under GPa pressures

IF 3.2 3区材料科学 Q1 MATERIALS SCIENCE, CERAMICS Journal of Non-crystalline Solids Pub Date : 2024-09-13 DOI:10.1016/j.jnoncrysol.2024.123221

Giuseppe Carini , Giovanna D'Angelo , Gaetano Di Marco , Mauro Federico , Steve W. Martin , Inseok Seo , Valentino Romano

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Abstract

The application of GPa pressures on glassy As₂Se₃, at temperatures just below and above its glass transition, leads to permanently compacted glasses that exhibit increased densification. Also, melt-quenching of the same glass under a pressure of 7 GPa gives rise to the formation of its crystalline β-phase. The structure of these As₂Se₃ compacted solids have been explored by X-ray diffraction. Measurements of 10 MHz ultrasound velocities reveal that the density increase is associated with a substantial hardening of the elastic continuum as well as a growing shear strength of glassy solids: the shear modulus G increases by more than 35 % and the Poisson's ratio ν decreases by more than 13 %. The optical properties have been investigated by UV–VIS diffuse reflectance spectroscopy, which shows a well defined linear reduction of the optical bandgap E_g with increased density. All of these observations have been explained by considering a disordered layered structure of glassy As₂Se₃, where densification produced by compaction under GPa pressures gives rise to a progressive strengthening of the interlayer interactions.

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在 GPa 压力下永久压实的 As2Se3 玻璃的剪切强度和光带隙

对玻璃状 As2Se3 施加 GPa 压力（温度略低于或高于其玻璃转变温度）会导致永久压实的玻璃，并表现出更高的致密性。此外，在 7 GPa 的压力下对同一玻璃进行熔淬，也会形成其结晶 β 相。我们通过 X 射线衍射研究了这些 As2Se3 压缩固体的结构。10 MHz 超声波速度的测量结果表明，密度的增加与弹性连续体的大幅硬化以及玻璃状固体剪切强度的增加有关：剪切模量 G 增加了 35% 以上，泊松比 ν 下降了 13% 以上。紫外-可见光漫反射光谱对光学特性进行了研究，结果表明，随着密度的增加，光带隙 Eg 呈线性下降。所有这些观察结果都可以用玻璃态 As2Se3 的无序层状结构来解释，在这种结构中，GPa 压力下的压实产生的致密化导致了层间相互作用的逐渐加强。

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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来源期刊

Journal of Non-crystalline Solids 工程技术-材料科学：硅酸盐

CiteScore

6.50

自引率

11.40%

发文量

576

审稿时长

35 days

期刊介绍： The Journal of Non-Crystalline Solids publishes review articles, research papers, and Letters to the Editor on amorphous and glassy materials, including inorganic, organic, polymeric, hybrid and metallic systems. Papers on partially glassy materials, such as glass-ceramics and glass-matrix composites, and papers involving the liquid state are also included in so far as the properties of the liquid are relevant for the formation of the solid. In all cases the papers must demonstrate both novelty and importance to the field, by way of significant advances in understanding or application of non-crystalline solids; in the case of Letters, a compelling case must also be made for expedited handling.