Viscoelastic behavior and fragility of Se-deficient chalcogenide liquids in As-P-Se system

Q1 Physics and Astronomy Journal of Non-Crystalline Solids: X Pub Date : 2022-12-01 DOI:10.1016/j.nocx.2022.100128

Bing Yuan , Bruce G. Aitken , Sabyasachi Sen

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引用次数: 3

Abstract

The viscoelastic behavior of supercooled Se-deficient liquids in the series As_xSe_100-x (40 ≤ x ≤ 60) and P_xAs_4–xSe₃ (0 ≤ x ≤ 2.8) are studied using parallel plate rheometry. The compositional variations in the viscosity and fragility of these liquids are shown to be consistent with the corresponding structural evolution. While the shear relaxation of As_xSe_100-x liquids with 40 ≤ x ≤ 50 is associated with the dynamics of AsSe bond scission/renewal, the As-rich liquids with x ≥ 55 are found to display an additional low-frequency process, which is related to a cooperative interconversion between molecular and network structural moieties. A similar behavior is also exhibited by the As-rich liquids in the P_xAs_4–xSe₃ series. In contrast, the P-rich liquids characterized by high molecule content display a power-law relaxation behavior resulting from a rather broad distribution of relaxation timescales associated with various dynamical modes of single molecules and molecular clusters.

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缺硒硫族化合物液体在As-P-Se体系中的粘弹性行为和脆性

采用平行板流变法研究了AsxSe100-x系列(40≤x≤60)和PxAs4-xSe3系列(0≤x≤2.8)过冷缺硒液体的粘弹性行为。这些液体的粘度和脆性的组成变化与相应的结构演变相一致。40≤x≤50的AsxSe100-x液体的剪切松弛与AsSe键断裂/更新动力学有关，而x≥55的富as液体则显示了一个额外的低频过程，这与分子和网络结构部分之间的协同相互转换有关。PxAs4-xSe3系列的富砷液体也表现出类似的行为。相反，高分子含量的富p液体表现出幂律弛豫行为，这是由于与单分子和分子簇的各种动力学模式相关的弛豫时间尺度分布相当广泛。

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