Zeger Vroon scite author profile

Polycrystalline randomly oriented defect free zeolite layers on porous o~-A1203 supports are prepared with a thickness of less than 5/zm by in situ crystallisation of silicalite-1. The flux of alkanes is a function of the sorption and intracrystalline diffusion. In mixtures of strongly and weakly adsorbing gases and at high loadings of the strongly adsorbing molecule in the zeolite pore, the flux of the weakly adsorbing molecule is suppressed by the sorption and the mobility of the strongly adsorbing molecule resulting in pore-blocking effects. The separation of these mixtures is mainly based on the sorption and completely different from the permselectivity. At low loadings of the strongly adsorbing molecules the separation is based on the sorption and the diffusion and is the same as the permselectivity. Separation factors for the isomers of butane (n-butane/isobutane) and hexane (hexane/2,2-dimethylbutane) are respectively high (10) and very high (> 2000) at 200°C. These high separation factors are a strong evidence that the membrane shows selectivity by size-exclusion and that transport in pores larger than the zeolite MFI pores (possible defects, etc) can be neglected,

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Preparation and characterization of thin zeolite MFI membranes on porous supports

Vroon

Keizer

Burggraaf

et al. 1998

Journal of Membrane Science

131

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Two component permeation through thin zeolite MFI membranes

Keizer

Burggraaf

Vroon

et al. 1998

Journal of Membrane Science

173

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Antireflective Coatings for Glass and Transparent Polymers

et al. 2016

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Antireflective coatings (ARCs) are applied to reduce surface reflections. We review coatings that reduce the reflection of the surface of the transparent substrates float glass, polyethylene terephthalate, poly(methyl methacrylate), and polycarbonate. Three main coating concepts exist to lower the reflection at the interface of a transparent substrate and air: multilayer interference coatings, graded index coatings, and quarter-wave coatings. We introduce and discuss these three concepts, and zoom in on porous quarter-wave coatings comprising colloidal particles. We extensively discuss the four routes for introducing porosity in quarter-wave coatings through the use of colloidal particles, which have the highest potential for application: (1) packing of dense nanospheres, (2) integration of voids through hollow nanospheres, (3) integration of voids through sacrificial particle templates, and (4) packing of nonspherical nanoparticles. Finally, we address the remaining challenges in the field of ARCs, and elaborate on potential strategies for future research in this area.

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Zeger Vroon

Transport properties of alkanes through ceramic thin zeolite MFI membranes

Preparation and characterization of thin zeolite MFI membranes on porous supports

Two component permeation through thin zeolite MFI membranes

Antireflective Coatings for Glass and Transparent Polymers

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