J.M. Esparza scite author profile

1) constructed under the premises of the dual sitebond model have been used as probe substrates to study the effects of variable connectivity and pore-size correlation on the aspects of both hysteresis loops and primary sorption scanning curves. The shapes of the hysteresis loops obtained from sorption simulation in networks of diverse morphologies are compared and discussed. It is found that the precursor structural parameters of the Monte Carlo simulated networks together with the sorption algorithm used in this work, can lead to IUPAC types H1, H2 and H3-like hysteresis loops, depending on the values chosen for the pore-size distribution parameters and mean connectivity. Network morphology also influences greatly the mechanisms of sorption processes in poorly or highly size correlated porous substrates. Sorption results on these 3-D porous specimens help to visualize the extents of pore blocking (vapour percolation) and delayed adsorption (liquid percolation) phenomena and also to foresee the most appropriate methods to ascertain the structure of porous materials.

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Development and sorption characterization of some model mesoporous and microporous silica adsorbents

Esparza

Ojeda

Campero

et al. 2005

Journal of Molecular Catalysis A: Chemical

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Physicochemical Aspects of Novel Surfactantless, Self-Templated Mesoporous SnO₂ Thin Films

et al. 2006

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A novel method of synthesis consisting of the production of ordered arrangements of tubular pores distributed inside SnO2 annealed thin films, which are prepared from a rotating disk process carried out at 2000-3500 rpm, is herein described. The main novelty is that no surfactant molecules are required in order to create these ordered pore structures; the templating entities are supramolecular assemblies of oligomeric chains formed during the extra-long aging allowed to the sol-gel processing of tin(IV) tetra-tert-amiloxide, Sn(OAm(t))4, chelated with acetylacetone molecules. Low angle X-ray diffraction peaks of SnO2 thin films calcined at 500 degrees C clearly certify the existence of ordered mesostructures when employing the right H2O/Sn(OAm(t))4 molar ratio during the SnO2 sol-gel synthesis. The final SnO2 ordered mesostructures are reminiscent of those linked to MCM-41 and SBA-15 substrates. Pore-size distribution analyses proceeding from N2 sorption isotherms at 76 K on the SnO2 thin films calcined at 500 degrees C unequivocally confirm the presence of tubular mesopores (mode pore sizes ranging from 5 to 7 nm). The thicknesses of the SnO2 films range from 80 to 150 nm after performing a drying process at 100 degrees C and from 70 to 125 nm after calcining in air at 500 degrees C; these film thicknesses show, in general, decreasing trends when either the spinning rate or the H2O/(Sn(OAm(t))4 ratio is increased.

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J.M. Esparza

N2 sorption scanning behavior of SBA-15 porous substrates

Capillary condensation in heterogeneous mesoporous networks consisting of variable connectivity and pore-size correlation

Development and sorption characterization of some model mesoporous and microporous silica adsorbents

Physicochemical Aspects of Novel Surfactantless, Self-Templated Mesoporous SnO₂ Thin Films

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J.M. Esparza

N2 sorption scanning behavior of SBA-15 porous substrates

Capillary condensation in heterogeneous mesoporous networks consisting of variable connectivity and pore-size correlation

Development and sorption characterization of some model mesoporous and microporous silica adsorbents

Physicochemical Aspects of Novel Surfactantless, Self-Templated Mesoporous SnO2 Thin Films

Contact Info

Product

Resources

About

Physicochemical Aspects of Novel Surfactantless, Self-Templated Mesoporous SnO₂ Thin Films