Abstract:Recent molecular dynamics data on the diffusion of linear diatomic and triatomic molecules in the zeolite silicalite are analyzed in terms of a new correlated model ͓F. Jousse, S. M. Auerbach, and D. P. Vercauteren, J. Chem. Phys. 112, 1531 ͑2000͔͒ capable to account for both first-and higher-order correlation effects. This ''N-step'' model reproduces very well our calculated mean square displacements and diffusion coefficients of the molecules considered. The improvements with respect to the results obtained … Show more
“…This means that a molecule passing a channel intersection continues on its way independent of its past (i.e., independent of the channel intersection from where it has come). Although in numerous experimental , and simulation − studies eq 1 was found to serve as a reasonable estimate, in several cases the deviations were found to be physically significant. 1 Topology of the channels in silicalite-1.…”
The correlation between the principal tensor elements of diffusion in MFI-type zeolites such as silicalite-1 and ZSM-5 may be substantially affected by memory effects. Extensive MD simulations of the molecular diffusion of methane in zeolite silicalite-1 are analyzed on the basis of the concept of memory-dependent molecular propagation. The obtained results are in good agreement with analytical approaches to memory effects presented in the literature.
“…This means that a molecule passing a channel intersection continues on its way independent of its past (i.e., independent of the channel intersection from where it has come). Although in numerous experimental , and simulation − studies eq 1 was found to serve as a reasonable estimate, in several cases the deviations were found to be physically significant. 1 Topology of the channels in silicalite-1.…”
The correlation between the principal tensor elements of diffusion in MFI-type zeolites such as silicalite-1 and ZSM-5 may be substantially affected by memory effects. Extensive MD simulations of the molecular diffusion of methane in zeolite silicalite-1 are analyzed on the basis of the concept of memory-dependent molecular propagation. The obtained results are in good agreement with analytical approaches to memory effects presented in the literature.
“…In numerous experimental [127,185] and simulation studies [139,172,176,[180][181][182]186], (171) has in principle been confirmed, although some deviations have also been observed. In [139] these deviations were quantified by introducing a memory parameter…”
Section: Diffusion Memory Of Methane In Silicalite-1mentioning
confidence: 59%
“…silicalite. The black dots show the intersections between straight channels and zigzag channels in the unit cell and the grey dots show intersections of the straight channels with zigzag channels that are outside the unit cell diffusion [180][181][182]. If such effects are neglected, the principal values of the diffusion tensor, i.e.…”
Section: Diffusion Memory Of Methane In Silicalite-1mentioning
Abstract. The theoretical understanding of the properties of molecular confined fluids is crucial for many applications in science and technology, which reach from molecules enclosed in porous media (zeolites) to aqueous phases at biological active interfaces (biomembranes). We discuss these complicated many-particle systems -which usually are to complex for an analytical statistical-mechanical treatment-by means of molecular simulation methods. We focus on advanced Monte Carlo techniques to study structure and thermodynamics of inhomogeneous fluids and on recent molecular dynamics methods to describe transport phenomena in microporous materials.The state of the art in the field is demonstrated by reviewing selected results of our recent computer simulations. We present both Monte Carlo studies of equilibrium properties of geometrically restricted fluids (such as spatial distribution functions, thermodynamic pressures and phase equilibria) and molecular dynamics studies of dynamical processes in nanoporous media, particularly diffusion of guest molecules in zeolites. The diffusion mechanism is analyzed in detail by computer simulations and theoretical analytical treatment as well.
“…There is no need anymore for including the correlation of subsequent displacements by introducing memory parameters. [16][17][18][19][20][21] This simplification, however, doesn't allow anymore the prediction of structurerelated diffusion anisotropy, as the prevailing feature of the original model presented in ref. 7.…”
Section: Discussionmentioning
confidence: 99%
“…In the extreme case of hardly any interchange the molecules essentially remain in one channel, so that D z approaches zero and b ) 1. Several papers [16][17][18][19][20][21] deal with the possibilities to account for correlations between subsequent dispacements and to derive the corresponding relations for the memory parameter b and, thus, for the interrelation of the principal elements D i of the diffusion tensor. In this paper (section 2) we develop a model for diffusion in MFI-type zeolites where the channel segments, i.e.…”
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