Contact angle of water on a model heterogeneous surface. A density functional approach

IF 0.9 4区 物理与天体物理 Q4 PHYSICS, CONDENSED MATTER Condensed Matter Physics Pub Date : 2022-10-03 DOI:10.5488/CMP.25.33603
K. Dąbrowska, O. Pizio, S. Sokołowski
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引用次数: 1

Abstract

We use a density functional approach to calculate the contact angle of the water model on a heterogeneous, graphite-like surface. The surface heterogeneity results from the pre-adsorption of a layer of spherical species. The pre-adsorbed molecules can also be a mixture of molecules of different sizes. The presence of pre-adsorbed layer causes geometrical and energetical heterogeneity of the surfaces. Two cases are considered. The pre-adsorbed molecules can either behave like hard-sphere obstacles, or they can also attract the molecules of water. In the first case, an increase of the amount of pre-adsorbed species leads to an increase of the wetting temperature, but this increase does not depend linearly on the amount of obstacles. In the case of obstacles exerting attractive forces on water molecules, the curves describing the dependence between the amount of pre-adsorbed species and the contact angle can exhibit a maximum. In addition, we have also studied how the pre-adsorbed species influence the local densities of gaseous and liquid phases in contact with a modified solid surface.
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模型非均质表面上水的接触角。密度泛函方法
我们使用密度泛函方法来计算非均质石墨类表面上水模型的接触角。表面非均质性是由于预吸附了一层球形物质。预吸附的分子也可以是不同大小分子的混合物。预吸附层的存在导致了表面的几何和能量不均一性。考虑两种情况。预吸附的分子要么表现得像硬球障碍物,要么也能吸引水分子。在第一种情况下,预吸附物质数量的增加导致润湿温度的增加,但这种增加并不线性依赖于障碍物的数量。在障碍物对水分子施加吸引力的情况下,描述预吸附物质数量与接触角之间关系的曲线可以表现出最大值。此外,我们还研究了预吸附物质如何影响与改性固体表面接触的气相和液相的局部密度。
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来源期刊
Condensed Matter Physics
Condensed Matter Physics 物理-物理:凝聚态物理
CiteScore
1.10
自引率
16.70%
发文量
17
审稿时长
1 months
期刊介绍: Condensed Matter Physics contains original and review articles in the field of statistical mechanics and thermodynamics of equilibrium and nonequilibrium processes, relativistic mechanics of interacting particle systems.The main attention is paid to physics of solid, liquid and amorphous systems, phase equilibria and phase transitions, thermal, structural, electric, magnetic and optical properties of condensed matter. Condensed Matter Physics is published quarterly.
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