The Structural Phase Transition, Degree of Polymerization and Dynamics Characteristics of Liquid Magnesium Silicate: A Molecular Dynamics Simulation

Asian Journal of Applied Chemistry Research Pub Date : 2024-05-22 DOI:10.9734/ajacr/2024/v15i3290

P. H. Kien, Phan Dinh Quang, Vu Van Anh, Tran Thi Quynh Như, G. Trang

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Abstract

In this paper, the structural phase transitions, degree of polymerization, and dynamics characteristics in liquid magnesium silicate (Mg2SiO4) under pressure have been studied using molecular dynamics (MD) simulation. The results indicate that the structure of Mg2SiO4 liquid includes MgOy (y = 3, 4,…8) basic units distributed in the Si-O structure network that powerfully depend on pressure. In the range 28-32 GPa, the Si-O structure network causes structural transformation from SiO4 to SiO6 via SiO5 units. Mg-O and Si-O subnets tend to form clusters with structural heterogeneity. The degree of polymerization is considered via characteristics of OT2 (T is Si or Mg), triclusters, tetraclusters bonds, and the cluster of MgOy-MgOy, SiOx-SiOx and MgOy-SiOx links. We indicated that the degree of polymerisation significantly increases with the increasing pressure. The dynamic in Mg2SiO4 liquid has been investigated through the self-diffusion, low and fast atoms. The evidence about the fast diffusion of Mg atoms in a low-pressure range is also indicated in here.

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液态硅酸镁的结构相变、聚合度和动力学特征：分子动力学模拟

本文利用分子动力学（MD）模拟研究了压力下液态硅酸镁（Mg2SiO4）的结构相变、聚合度和动力学特征。结果表明，Mg2SiO4 液体的结构包括分布在硅-氧结构网络中的 MgOy（y = 3、4、......8）基本单元，它们与压力密切相关。在 28-32 GPa 的范围内，Si-O 结构网络通过 SiO5 单元导致结构从 SiO4 转变为 SiO6。Mg-O 和 Si-O 子网倾向于形成具有结构异质性的簇。聚合度是通过 OT2（T 为 Si 或 Mg）、三簇、四簇键以及 MgOy-MgOy、SiOx-SiOx 和 MgOy-SiOx 链接簇的特征来考虑的。我们发现，聚合度随着压力的增加而显著提高。我们通过自扩散、低原子和快原子研究了 Mg2SiO4 液体中的动态。这里还指出了镁原子在低压范围内快速扩散的证据。

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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Asian Journal of Applied Chemistry Research

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