Title of article
Atomistic simulation of sorption in model pores with reduced spatial periodicity
Author/Authors
Evangelia Pantatosaki، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
4
From page
5606
To page
5609
Abstract
Grand Canonical Monte Carlo (GCMC) was used to study the sorption thermodynamics of carbon dioxide in model graphite slit-like pores and
nanotubes by means of the Ewald technique, suitably adapted for the computation of long range (electrostatic) interactions of sorbates confined in
pore systems exhibiting reduced periodicity in space. The computed thereby micropore size distributions extracted via mathematical elaboration of
the simulation results with respect to real graphitic materials, reproduced successfully the experimentally measured isotherms of carbon dioxide in
these materials at various temperatures. In the case of nanotubes, a direct Coulomb summation over a large number of periodic images proved to be
a sufficient approximation leading to excellent agreement between the simulated and measured isotherms
Keywords
Adsorption , Grand canonical Monte Carlo , Graphite nanopores , Ewald technique , Carbon dioxide
Journal title
Applied Surface Science
Serial Year
2007
Journal title
Applied Surface Science
Record number
1003696
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