Your search keyword '"Prakriteswar Santikary"' showing total 6 results

1. Deviation from Arrhenius behaviour of rate of intercage diffusion in Zeolite Y1

Author

Subramanian Yashonath and Prakriteswar Santikary

Subjects

Arrhenius equation, symbols.namesake, Chemistry, symbols, Solid State & Structural Chemistry Unit, Thermodynamics, Physical chemistry, Supercomputer Education & Research Centre, Diffusion (business), Zeolite

Abstract

Rate of intercage diffusion (k c ) along with rate of cage visits (k v ) and diffusion coefficient (D) of sorbates in zeolite Y have been calculated. We show that as a consequence of the dependence of rate of intercage diffusion on short-time behaviour, significant deviation from the Arrhenius behaviour at suffciently high temperatures occurs.

Published

2001

2. Dynamics of Zeolite Cage and Its Effect on the Diffusion Properties of Sorbate: Persistence of Diffusion Anomaly in NaA Zeolite

Author

Prakriteswar Santikary and Subramanian Yashonath

Subjects

Molecular dynamics, Crystallography, Yield (engineering), Anomalous diffusion, Chemical physics, Chemistry, General Engineering, Physical and Theoretical Chemistry, Anomaly (physics), Diffusion (business), Particle density, Zeolite, Cage

Abstract

Recent computer simulations on zeolites Y and A have found that the diffusion coefficient and the rate of intercage diffusion exhibit, apart from a linear dependence on the reciprocal of the square of the sorbate diameter, an anomalous peak as sorbate diameter approaches the window diameter. Here we report molecular dynamics simulations of zeolite NaA incorporating framework flexibility as a function of sorbate diameter in order to verify the existence of anomalous diffusion. Results suggest persistence of anomalous diffusion or ring effect. This suggests that the anomalous behavior is a general effect characteristic of zeolites Y and A. The barrier for diffusion across the eight-ring window is seen to be negative and is found to decrease with sorbate size. The effect of sorbate on the cage motion has also been investigated. Results suggest that the window expands during intercage migration only if the sorbate size is comparable to the window diameter. Flexible cage simulations yield a higher value for the diffusion coefficient and also the rate of intercage diffusion. This increase has been shown to be due to an increase in the intercage diffusions via the centralized diffusion mode rather than the surface-mediated mode. It is shown that this increase arises from an increase in the single particle density distribution in the region near the cage center.

Published

1994

3. Diffusion of Sorbates in Zeolites Y and A: Novel Dependence on Sorbate Size and Strength of Sorbate-Zeolite Interaction

Author

Prakriteswar Santikary and Subramanian Yashonath

Subjects

Imagination, Chemistry, media_common.quotation_subject, General Engineering, Thermodynamics, Molecular sieve, Molecular dynamics, Monatomic ion, Levitation, Physical chemistry, Physical and Theoretical Chemistry, Diffusion (business), Porous medium, Zeolite, media_common

Abstract

A systematic investigation of monatomic spherical sorbates in the supercages of zeolites Y and A by molecular dynamics technique is presented. Rates of intercage diffusion, rates of cage visits, and the diffusion coefficients have been calculated as a function of the sorbate-zeolite interaction strength. These properties exhibit markedly different dependences on interaction strength for the two zeolites. The observed behavior is shown to be a consequence of the two principal mechanisms of intercage diffusion and the energetic barrier associated with them. The diffusion coefficient and other properties associated with intercage diffusion are found to be directly proportional to the reciprocal of the square of the sorbate diameter when the sorbate diameter is significantly smaller than the window diameter. As the sorbate diameter increases, a peak is observed in all the transport properties investigated including the diffusion coefficient. We call this surprising effect as the ring or levitation effect and it explains several anomalous results reported in the literature and suggests a breakdown of the geometrical criterion for diffusion of sorbates. It shows that under certain conditions nongeometrical factors play a major role and geometrical factors become secondary in the determination of the molecular sieve property. A generalized parameter has been proposed which suggests conditions under which one can expect the ring or levitation effect in any porous medium. Inverse size selectivity becomes operative under these conditions.

Published

1994

4. Diffusion in zeolites: Anomalous dependence on sorbate diameter

Author

Subramanian Yashonath and Prakriteswar Santikary

Subjects

Condensed Matter::Soft Condensed Matter, Condensed Matter::Materials Science, Molecular dynamics, Lennard-Jones potential, Chemical physics, Chemistry, Physics::Atomic and Molecular Clusters, General Physics and Astronomy, Physical chemistry, Physical and Theoretical Chemistry, Diffusion (business)

Abstract

Molecular dynamics calculations on sorbate atoms of varying diameters in zeolites A and Y are reported. Rates of cage-to-cage diffusions, rate of cage visits, and diffusion coefficients show unexpected behavior. A generalized parameter has been defined that exhibit a peak in diffusion coefficient around 0.84 for both the zeolites investigated.

Published

1994

5. Sorbate properties and cage-to-cage diffusion of argon in NaCaA: a molecular dynamics study

Author

Prakriteswar Santikary and Subramanian Yashonath

Subjects

Arrhenius equation, Chemistry, General Engineering, Thermodynamics, Radial distribution function, Quantitative Biology::Other, Condensed Matter::Soft Condensed Matter, Delocalized electron, Molecular dynamics, symbols.namesake, Reaction rate constant, Potential energy surface, Physics::Atomic and Molecular Clusters, symbols, Effective diffusion coefficient, Physical chemistry, Physical and Theoretical Chemistry, Diffusion (business)

Abstract

Detailed molecular dynamics simulations of argon in zeolite NaCaA are reported. Thermodynamic, structural, and dynamical properties of the sorbate as a function of temperature have been obtained. The properties calculated include various site-site radial distribution functions, different energy distribution functions, selfdiffusion coefficients, the power spectra, and properties relating to cage-to-cage diffusion. The results suggest that sorbate is delocalized above 300 K. Both modes of cage-to-cage diffusion-the surface-mediated and centralized diffusion-are associated with negative barrier heights. Surprisingly, rate of cage-to-cage diffusion is associated with negative and positive activation energies below and above 500 K. The observed differences in the behavior of the rate of cage-to-cage diffusion between Xe-NaY and Ar-NaCaA systems and the nature of the potential energy surface are discussed. Presence of sorbatezeolite interactions results in significant enhancement in the rate of cage-to-cage diffusion and rate of cage visits. It is shown that properties dependent on the long-time behavior such as the diffusion coefficient and the rate of cages visited exhibit the expected Arrhenius dependence on temperature.

Published

1993

6. Xenon in sodium Y zeolite. 2. Arrhenius relation, mechanism, and barrier height distribution for cage-to-cage diffusion

Author

Subramanian Yashonath and Prakriteswar Santikary

Subjects

Arrhenius equation, General Engineering, chemistry.chemical_element, Noble gas, Mineralogy, Interaction energy, Condensed Matter::Soft Condensed Matter, Molecular dynamics, symbols.namesake, Xenon, Adsorption, Distribution function, chemistry, Chemical physics, Physics::Atomic and Molecular Clusters, symbols, Physical and Theoretical Chemistry, Diffusion (business)

Abstract

Various geometrical and energetic distribution functions and other properties connected with the cage-to-cage diffusion of xenon in sodium Y zeolite have been obtained from long molecular dynamics calculations. Analysis of diffusion pathways reveals two interesting mechanisms-surface-mediated and centralized modes for cage-to-cage diffusion. The surface-mediated mode of diffusion exhibits a small positive barrier, while the centralized diffusion exhibits a negative barrier for the sorbate to diffuse across the 12-ring window. In both modes, however, the sorbate has to be activated from the adsorption site to enable it to gain mobility. The centralized diffusion additionally requires the sorbate to be free of the influence of the surface of the cage as well. The overall rate for cage-to-cage diffusion shows an Arrhenius temperature dependence with E(a) = 3 kJ/mol. It is found that the decay in the dynamical correction factor occurs on a time scale comparable to the cage residence time. The distributions of barrier heights have been calculated. Functions reflecting the distribution of the sorbate-zeolite interaction at the window and the variations of the distance between the sorbate and the centers of the parent and daughter cages are presented.

Published

1993