Isabelle Vandendael scite author profile

Nanoporous materials find widespread applications in our society: from drug delivery to environmentally friendly catalysis and separation technologies. The efficient design of these processes depends crucially on understanding the mass transfer mechanism. This is conventionally determined by uptake or release experiments, carried out with assemblages of nanoporous crystals, assuming all crystals to be identical. Using micro-imaging techniques, we now show that even apparently identical crystals (that is, crystals of similar size and shape) from the same batch may exhibit very different uptake rates. The relative contribution of the surface resistance to the overall transport resistance varied with both the crystal and the guest molecule. As a consequence of this crystal diversity, the conventional approach may not distinguish correctly between the different mass transfer mechanisms. Detection of this diversity adds an important new piece of evidence in the search for the origin of the surface barrier phenomenon. Our investigations were carried out with the zeolite SAPO-34, a key material in the methanol-to-olefins (MTO) process, propane-propene separation and adsorptive heat transformation.

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Initiation and growth of modified Zr-based conversion coatings on multi-metal surfaces

Cerezo

Vandendael

Posner

et al. 2013

Surface and Coatings Technology

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Agro-pellets for domestic heating boilers: Standard laboratory and real life performance

et al. 2012

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High performance gold-supported platinum electrocatalyst for oxygen reduction

Brussel¹,

Kokkinidis²,

Vandendael³

et al. 2002

Electrochemistry Communications

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The effect of surface pre-conditioning treatments on the local composition of Zr-based conversion coatings formed on aluminium alloys

Cerezo

Vandendael

Posner

et al. 2016

Applied Surface Science

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