화학공학소재연구정보센터
Langmuir, Vol.33, No.42, 11231-11245, 2017
Pressure Enhancement in Confined Fluids: Effect of Molecular Shape and Fluid-Wall Interactions
Recently, several experimental and simulation studies have found that phenomena that normally occur at extremely high pressures in a bulk phase can occur in nanophases confined within porous materials at much lower-bulk phase pressures, thus providing an alternative route to study high-pressure phenomena. In this work, we examine the effect on the tangential pressure of varying the molecular shape, strength of the fluid wall interactions, and pore width, for carbon slit-shaped pores. We find, that, for multisite molecules, the,presence of additional rotational degrees of freedom leads to unique changes in the shape of the tangential pressure profile, especially in larger pores. We show that, due to the direct relationship between the molecular density and the fluid-wall interactions, the latter have a large impact on the pressure tensor. The molecular shape and pore size have a notable impact on the layering of molecules in the pore, greatly influencing both the shape and scale of the tangential pressure profile.