Add to ORKGBased on the most general concepts of the translational mobility and geometry of a porous medium, an expression is derived for the self-diffusion coefficient of liquid molecules in such a medium. An analytical relation between the self-diffusion coefficient and the effective geometric parameters of the pores, as well as the sizes of diffusant molecules, is proposed. The derived expression agrees well with experimental results
The mobility of liquid (n-decane) that fills the system of primary and secondary pores of a biporous...
The details of molecular motion of low-molecular-weight polar and nonpolar organic liquids in nanopo...
We consider the process of self-diffusion in the cellular structure in the presence of permeable bar...
Based on the most general concepts of the translational mobility and geometry of a porous medium, an...
Based on the most general concepts of the translational mobility and geometry of a porous medium, an...
The purpose of our work is to attempt to find the analytical expression approximating the experiment...
Using Monte Carlo simulation, the time dependence of the self-diffusion coefficient D(t) in porous m...
Self-diffusion coefficients D*of liquids in porous media, as measured by the pulsed-field gradient N...
The recent frictional model of the transport of fluid mixtures in nanopores developed in this labora...
We present a detailed overview of classical molecular simulation studies examining the self-diffusio...
The design and development of many separation and catalytic process technologies require a proper qu...
Comparing the rates of molecular diffusion in porous materials under different regimes of measuremen...
The mobility of liquid (n-decane) that fills the system of primary and secondary pores of a biporous...
The details of molecular motion of low-molecular-weight polar and nonpolar organic liquids in nanopo...
We consider the process of self-diffusion in the cellular structure in the presence of permeable bar...
Based on the most general concepts of the translational mobility and geometry of a porous medium, an...
Based on the most general concepts of the translational mobility and geometry of a porous medium, an...
The purpose of our work is to attempt to find the analytical expression approximating the experiment...
Using Monte Carlo simulation, the time dependence of the self-diffusion coefficient D(t) in porous m...
Self-diffusion coefficients D*of liquids in porous media, as measured by the pulsed-field gradient N...
The recent frictional model of the transport of fluid mixtures in nanopores developed in this labora...
We present a detailed overview of classical molecular simulation studies examining the self-diffusio...
The design and development of many separation and catalytic process technologies require a proper qu...
Comparing the rates of molecular diffusion in porous materials under different regimes of measuremen...
The mobility of liquid (n-decane) that fills the system of primary and secondary pores of a biporous...
The details of molecular motion of low-molecular-weight polar and nonpolar organic liquids in nanopo...
We consider the process of self-diffusion in the cellular structure in the presence of permeable bar...