Kristof Hormann scite author profile

Solids with a hierarchically structured, disordered pore space, such as macroporous-mesoporous silica monoliths, are used as fixed beds in separation and catalysis. Targeted optimization of their functional properties requires a knowledge of the relation among their synthesis, morphology, and mass transport properties. However, an accurate and comprehensive morphological description has not been available for macroporous-mesoporous silica monoliths. Here we offer a solution to this problem based on the physical reconstruction of the hierarchically structured pore space by nanoscale tomography. Relying exclusively on image analysis, we deliver a concise, accurate, and model-free description of the void volume distribution and pore coordination inside the silica monolith. Structural features are connected to key transport properties (effective diffusion, hydrodynamic dispersion) of macropore and mesopore space. The presented approach is applicable to other fixed-bed formats of disordered macroporous-mesoporous solids, such as packings of mesoporous particles and organic-polymer monoliths.

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Morphology and separation efficiency of a new generation of analytical silica monoliths

Hormann

Müllner

Bruns

et al. 2012

Journal of Chromatography A

103

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Analytical silica monoliths with submicron macropores: Current limitations to a direct morphology–column efficiency scaling

Hormann

Tallarek

2013

Journal of Chromatography A

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Larger voids in mechanically stable, loose packings of 1.3 μm frictional, cohesive particles: Their reconstruction, statistical analysis, and impact on separation efficiency

Reising

Godinho

Hormann

et al. 2016

Journal of Chromatography A

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Comparison of first and second generation analytical silica monoliths by pore-scale simulations of eddy dispersion in the bulk region

Hlushkou

Hormann

Höltzel

et al. 2013

Journal of Chromatography A

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Kristof Hormann

Morphological Analysis of Disordered Macroporous–Mesoporous Solids Based on Physical Reconstruction by Nanoscale Tomography

Morphology and separation efficiency of a new generation of analytical silica monoliths

Analytical silica monoliths with submicron macropores: Current limitations to a direct morphology–column efficiency scaling

Larger voids in mechanically stable, loose packings of 1.3 μm frictional, cohesive particles: Their reconstruction, statistical analysis, and impact on separation efficiency

Comparison of first and second generation analytical silica monoliths by pore-scale simulations of eddy dispersion in the bulk region

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