奔驰汽车靠近疏水性墙壁的水分子:积分方程理论与蒙特卡罗模拟的比较。
Mercedes-Benz water molecules near hydrophobic wall: integral equation theories vs Monte Carlo simulations.
机构信息
Faculty of Chemistry and Chemical Technology, University of Ljubljana, Ljubljana SI-1000, Slovenia.
出版信息
J Chem Phys. 2011 Oct 7;135(13):134706. doi: 10.1063/1.3644934.
Abstract
Associative version of Henderson-Abraham-Barker theory is applied for the study of Mercedes-Benz model of water near hydrophobic surface. We calculated density profiles and adsorption coefficients using Percus-Yevick and soft mean spherical associative approximations. The results are compared with Monte Carlo simulation data. It is shown that at higher temperatures both approximations satisfactory reproduce the simulation data. For lower temperatures, soft mean spherical approximation gives good agreement at low and at high densities while in at mid range densities, the prediction is only qualitative. The formation of a depletion layer between water and hydrophobic surface was also demonstrated and studied.
摘要
关联的亨德森-亚伯拉罕-巴克理论被应用于研究靠近疏水面的水的梅赛德斯-奔驰模型。我们使用 Percus-Yevick 和软平均球关联近似法计算了密度分布和吸附系数。结果与蒙特卡罗模拟数据进行了比较。结果表明,在较高温度下,两种近似方法都能很好地再现模拟数据。对于较低的温度,软平均球近似在低密度和高密度时给出了很好的一致性,而在中密度范围内,预测只是定性的。还证明并研究了水和疏水面之间耗尽层的形成。
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