TACHIBANA, Masatoshi; ENGL, Wilfried; PANIZZA, Pascal; DELEUZE, Hervé; LECOMMANDOUX, Sebastien; USHIKI, Hideharu; BACKOV, Renal

doi:10.1016/j.cep.2007.04.010

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TACHIBANA, Masatoshi
Laboratory of Molecular Dynamics and Complex Chemical Physics
Laboratoire du Futur [LOF]
Centre de recherches Paul Pascal [CRPP]

ENGL, Wilfried
Laboratoire du Futur [LOF]

PANIZZA, Pascal
Laboratoire du Futur [LOF]

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Chemical Engineering and Processing: Process Intensification. 2008, vol. 47, n° 8, p. 1323-1328

Elsevier

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For the first time we have combined sol-gel chemistry and millifluidic to generate silica ceramic engineering their sizes and aspect ratios. The particle sizes are controlled by varying the flow rates of the continuous and disperse phases within the home-made millifluidic reactor. Also, the silica particles aspect ratio can be tuned by adjusting the constrained geometry of the millifluidic devices, leading to the production of rod-like silica ceramics. Both SAXS and nitrogen physisorption measurements reveal that final inorganic silica ceramics are essentially microporous. (c) 2007 Elsevier B.V. All rights reserved.< Leer menos

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microfluidic

millifluidic

shaping process

silica

porous

coaxial flows

sol-gel

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Combining sol-gel chemistry and millifluidic toward engineering microporous silica ceramic final sizes and shapes: An Integrative Chemistry approach

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