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Article Dans Une Revue Langmuir Année : 2008

Capillary Condensation in Porous Materials. Hysteresis and Interaction without Pore Blocking/Percolation Process

Résumé

We have performed measurements of boundary hysteresis loops, reversal Curves, and subloops in p(+)-type porous silicon, a porous material composed of straight non-interconnected pores. These data show that a strong interaction mechanism exists between the pores. The pores of porous silicon are non-independent, whereas they are not interconnected. This hysteretic behavior is very similar to that observed in porous glass, which consists of cavities connected to each other by constrictions. This questions the so-called pore blocking/percolation model developed to explain the behavior of fluid in porous glass. More generally, if we disregard the shape of the boundary hysteresis loops which depends oil the porous material (H1 for MCM-41 and SBA-15, H2 for porous glass and p(+)-type porous silicon), the hysteretic features inside the main loop are qualitatively the same for all these porous systems. This shows that none of these systems are composed of independent pores. A coupling between the pores is always present whether they are interconnected or not and whatever the shape of the main loop is.
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Dates et versions

hal-00290441 , version 1 (25-06-2008)

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Annie Grosman, Camille Ortega. Capillary Condensation in Porous Materials. Hysteresis and Interaction without Pore Blocking/Percolation Process. Langmuir, 2008, 24 (8), pp.3977. ⟨10.1021/la703978v⟩. ⟨hal-00290441⟩
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