Shi Kaihang, Santiso Erik E, Gubbins Keith E
Department of Chemical and Biomolecular Engineering, North Carolina State University, Raleigh, North Carolina 27606, USA.
J Chem Phys. 2021 Feb 28;154(8):084502. doi: 10.1063/5.0044487.
The estimation of a microscopic pressure tensor in an adsorbed thin film on a planar surface remains a challenge in both experiment and theory. While the normal pressure is well-defined for a planar surface, the tangential pressure at a point is not uniquely defined at the nanoscale. We report a new method that allows us to calculate the local pressure tensor and its spatial integral using an arbitrary contour definition of the "virial-route" local pressure tensor. We show that by integrating the local tangential pressure over a small region of space, roughly the range of the intermolecular forces, it is possible to define a coarse-grained tangential pressure that appears to be unique and free from ambiguities in the definition of the local pressure tensor. We support our argument by presenting the results for more than ten types of contour definitions of the local pressure tensor. By defining the coarse-grained tangential pressure, we can also find the effective thickness of the adsorbed layer and, in the case of a porous material, the statistical pore width. The coarse-grained in-layer and in-pore tangential pressures are determined for Lennard-Jones argon adsorbed in realistic carbon slit pores, providing a better understanding of the pressure enhancement for strongly wetting systems.
在平面表面上吸附的薄膜中微观压力张量的估计在实验和理论上仍然是一个挑战。虽然对于平面表面,法向压力是明确的,但在纳米尺度下,某一点的切向压力并非唯一确定。我们报告了一种新方法,该方法允许我们使用“维里路径”局部压力张量的任意轮廓定义来计算局部压力张量及其空间积分。我们表明,通过在一个小的空间区域(大致为分子间力的范围)上对局部切向压力进行积分,可以定义一个粗粒化的切向压力,它似乎是唯一的,并且在局部压力张量的定义中没有歧义。我们通过给出局部压力张量的十多种轮廓定义的结果来支持我们的论点。通过定义粗粒化的切向压力,我们还可以找到吸附层的有效厚度,对于多孔材料,还可以找到统计孔径。确定了吸附在实际碳狭缝孔中的 Lennard-Jones 氩的粗粒化层内和孔内切向压力,这有助于更好地理解强润湿系统中的压力增强。