从固体表面形成水合物的动力学途径的微秒分子动力学模拟。

Microsecond molecular dynamics simulations of the kinetic pathways of gas hydrate formation from solid surfaces.

机构信息

Division of Molecular and Materials Simulation, Key Lab for Nanomaterials, Ministry of Education, Beijing University of Chemical Technology, Beijing 100029, China.

出版信息

Langmuir. 2011 May 17;27(10):5961-7. doi: 10.1021/la105088b. Epub 2011 Apr 12.

DOI:10.1021/la105088b

PMID:21486061

Abstract

In this paper, we report microsecond molecular dynamics simulations of the kinetic pathway of CO(2) hydrate formation triggered by hydroxylated silica surfaces. Our simulation results show that the nucleation of the CO(2) hydrate is a three-stage process. First, an icelike layer is formed closest to the substrates on the nanosecond scale. Then, on the submicrosecond timescale, a thin layer with intermediate structure is induced to compensate for the structure mismatch between the icelike layer and the final stable CO(2) hydrate. Finally, on the microsecond timescale, the nucleation of the first CO(2) hydrate motif layer is generated from the intermediate structure that acts as nucleation seeds. We also address the effects of the distance between two surfaces.

摘要

在本文中，我们报告了受羟基化硅表面触发的 CO(2)水合物形成动力学途径的微秒分子动力学模拟。我们的模拟结果表明，CO(2)水合物的成核是一个三阶段过程。首先，在纳秒尺度上在靠近基底的位置形成冰晶层。然后，在亚微秒时间尺度上，诱导形成具有中间结构的薄水层，以补偿冰晶层与最终稳定的 CO(2)水合物之间的结构不匹配。最后，在微秒时间尺度上，从充当成核种子的中间结构生成第一个 CO(2)水合物基元层的成核。我们还讨论了两个表面之间距离的影响。

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从固体表面形成水合物的动力学途径的微秒分子动力学模拟。

Microsecond molecular dynamics simulations of the kinetic pathways of gas hydrate formation from solid surfaces.

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