Tim S. Jakubov scite author profile

A discrete summation method has been developed to calculate the dispersion interaction potential between two C 60 fullerene molecules and applied to the fullerene-argon and fullerene-helium systems. The pairwise atom-atom potentials for carbon-carbon, carbon-argon and carbon-helium interactions were described by the Lennard-Jones (6-12) expression and considered to be additive. Increased accuracy of these calculations was achieved by accounting for the radius and positions of each carbon atom in fullerene by taking into consideration the irregularity of hexagons in the fullerene structure.As we understand, a discrete summation method has not been employed for the calculation of the C 60 -C 60 interaction. Additionally, the method provides a mechanism to calculate the interaction potential for different directions of approach and orientations of fullerene molecules. These differences reach up to 6% at the minimum energy position when comparing approaching hexagons compared to pentagons.The description of the calculated interaction potential energy of molecular C 60 -C 60 fullerene that we propose is a physically grounded equation, which has provided excellent fit with the dispersion interaction data. We show that this equation is less complex in structure, while providing a higher accuracy (1% or less inaccuracy) than, for instance Girifalco's (1992) equation, which gives inaccuracy in the range 4-5% when employed on our data. The proposed equation was further modified to provide a successful analytical description of the argon-fullerene interaction energy and an estimate of the resultant Henry constant and isosteric heat of adsorption.Finally these equations were used to calculate the variation of these Henry constants with temperature for the helium-fullerene system indicating that at room temperature the excess adsorption is negative and that the resulting error when used as a volumetric calibrant, although not unduly significant, is not negligible.

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Tim S. Jakubov

Adsorption-induced dimensional changes of solids

Modified Dubinin–Radushkevich/Dubinin–Astakhov Adsorption Equations

Temperature dependence of adsorption

Dubinin–Radushkevich Equation as the Equation for the Excess Adsorption Isotherm

Direct calculations of the dispersion interaction between fullerenes and their equation for the potential energy

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