Molecular Dynamics Simulation of Wetting Behavior: Contact Angle Dependency on Water Potential Models

ICS Physical Chemistry Pub Date : 2021-02-06 DOI:10.34311/ICSPC.2021.1.1.10

L. Hakim, Irsandi Dwi Oka Kurniawan, Ellya Indahyanti, Irwansyah Putra Pradana

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引用次数: 1

Abstract

The underlying principle of surface wettability has obtained great attentions for the development of novel functional surfaces. Molecular dynamics simulations has been widely utilized to obtain molecular-level details of surface wettability that is commonly quantified in term of contact angle of a liquid droplet on the surface. In this work, the sensitivity of contact angle calculation at various degrees of surface hydrophilicity to the adopted potential models of water: SPC/E, TIP4P, and TIP5P, is investigated. The simulation cell consists of a water droplet on a structureless surface whose hydrophilicity is modified by introducing a scaling factor to the water-surface interaction parameter. The simulation shows that the differences in contact angle described by the potential models are systematic and become more visible with the increase of the surface hydrophilicity. An alternative method to compute a contact angle based on the height of center-of-mass of the droplet is also evaluated, and the resulting contact angles are generally larger than those determined from the liquid-gas interfacial line.

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润湿行为的分子动力学模拟:接触角对水势模型的依赖

表面润湿性的基本原理在新型功能表面的开发中得到了广泛的关注。分子动力学模拟已被广泛用于获得表面润湿性的分子水平细节，通常用液滴在表面的接触角来量化。在这项工作中，研究了不同表面亲水性下接触角计算对所采用的水势模型SPC/E、TIP4P和TIP5P的敏感性。模拟单元由无结构表面上的水滴组成，通过在水-表面相互作用参数中引入比例因子来改变其亲水性。模拟结果表明，势模型所描述的接触角差异是系统的，并且随着表面亲水性的增加而变得更加明显。还评估了一种基于液滴质心高度计算接触角的替代方法，所得到的接触角通常比从液气界面线确定的接触角大。

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