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dc.contributor.authorKowalczyk, Poitr
dc.contributor.authorCiach, A.
dc.contributor.authorNeimark, A.
dc.identifier.citationKowalczyk, P. and Ciach, A. and Neimark, A. 2008. Adsorption-induced deformation of microporous carbons: Pore size distribution effect. Langmuir. 24 (13): pp. 6603-6608.

Wepresent a thermodynamic model of adsorption-induced deformation of microporous carbons. The model represents the carbon structure as a macroscopically isotropic disordered three-dimensional medium composed of stacks of slit-shaped pores of different sizes embedded in an incompressible amorphous matrix. Adsorption stress in pores is calculated by means of Monte Carlo simulations. The proposed model reproduces qualitatively the experimental nonmonotonic dilatometric deformation curve for argon adsorption on carbide-derived activated carbon at 243 K and pressure up to 1.2 MPa. The elastic deformation (contraction at low pressures and swelling at higher pressures) results from the adsorption stress that depends strongly on the pore size. The pore size distribution determines the shape of the deformation curve, whereas the bulk modulus controls the extent of the sample deformation.

dc.publisherAmerican Chemical Society
dc.titleAdsorption-induced deformation of microporous carbons: Pore size distribution effect
dc.typeJournal Article
curtin.accessStatusFulltext not available

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