Water structure and Dynamics in Microporous Mordenite

IF 1.1 4区物理与天体物理 Q4 PHYSICS, ATOMIC, MOLECULAR & CHEMICAL

Applied Magnetic Resonance Pub Date : 2024-07-27 DOI:10.1007/s00723-024-01692-6

Andrei V. Egorov, Maria I. Egorova, Dmitry A. Mizyulin, Marina G. Shelyapina

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Abstract

The local ordering and features of the molecular mobility of water confined in voids of a pure silica mordenite were studied using the molecular dynamics simulation over a temperature range from 298 to 163 K. The simulated system was a fragment of mordenite consisted of 2 × 2 × 4 unit cells filled with 384 water molecules. Three different water models: SPCE, SPCF, and TIP5P were considered. To study the effect of nanoconfinment, the results were compared with bulk water. The modeling suggests that at room temperature, a 2D (in c and b directions of the mordenite cell) water diffusion takes place, while upon cooling, the diffusion in b direction essentially slows down. The analysis of microstructure shows that the pores prevent the formation of a full tetrahedral structure of water environment that results in formation of several water substructures. A detailed analysis of water reorientational motion was carried out and the activation energies were determined from temperature dependences of the correlation times. Of the three water models considered, SPCE demonstrated the best performance. The results obtained can be helpful for interpretation of experimental temperature dependences of NMR relaxation rates for water molecules confined in porous media with complex topology.

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微孔莫来石中的水结构与动力学

在 298 至 163 K 的温度范围内，利用分子动力学模拟研究了封闭在纯硅莫来石空隙中的水的局部有序性和分子流动性特征。有三种不同的水模型：考虑了 SPCE、SPCF 和 TIP5P 三种不同的水模型。为了研究纳米纤化的影响，将结果与块状水进行了比较。建模结果表明，在室温下，水发生了二维（在莫氏晶胞的 c 和 b 方向）扩散，而在冷却时，b 方向的扩散基本减慢。对微观结构的分析表明，孔隙阻碍了水环境完整四面体结构的形成，从而导致了多种水亚结构的形成。对水的重新定向运动进行了详细分析，并根据相关时间的温度相关性确定了活化能。在考虑的三种水模型中，SPCE 的性能最佳。研究结果有助于解释具有复杂拓扑结构的多孔介质中水分子核磁共振弛豫速率的实验温度依赖性。

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来源期刊

Applied Magnetic Resonance 物理-光谱学

CiteScore

1.90

自引率

10.00%

发文量

审稿时长

2.3 months

期刊介绍： Applied Magnetic Resonance provides an international forum for the application of magnetic resonance in physics, chemistry, biology, medicine, geochemistry, ecology, engineering, and related fields. The contents include articles with a strong emphasis on new applications, and on new experimental methods. Additional features include book reviews and Letters to the Editor.