Abstract

The diffusion parameters of binary gas mixture He (tracer gas)–N 2 (carrier gas) in hybrid organic–inorganic SiO 2-X porous solids which have suffered gradual functionalization with functional groups X of increasing length (X = ∅, Si–H, Si–CH 2OH, Si–(CH 2) 3OH, Si–(CH 2) 11CH 3) are reported. The effective diffusivities D eff, the Henry law constants K as well as the tortuosity factors τ for the examined solids were estimated by a typical pulse gas chromatographic method. Analysis of the experimental results was carried out by the well-known method of linearization of moments. The moments s analysis provides a powerful means for extracting diffusion parameters from the experimental response curves The proposed methodology is simple compared to other similar studies and provides rapidly reliable data. The results of this work indicate that the effective diffusivity D eff in porous networks drops markedly as the initial porosity of the parent SiO 2 sample is blocked by the functionalization of the pore surfaces with functional groups of increasing size, Si–H, Si–CH 2OH, Si–(CH 2) 3OH and Si–(CH 2) 11CH 3. The low values of the Henry law constants K found indicate that the adsorption of He on the porous surfaces for all the solids is weak. Also, the tortuosity factor τ is proportionally correlated to the pore blocking effects and the percolation phenomena of gases flowing into the porous network.

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