Facile synthesis of an ultramicroporous MOF tubular membrane with selectivity towards CO2

Sonia Aguado; Charles-Henri Nicolas; Virginie Moizan-Baslé; Carlos Nieto; Hedi Amrouche; Nicolas Bats; Nathalie Audebrand; David Farrusseng

doi:10.1039/C0NJ00667J

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Facile synthesis of an ultramicroporous MOF tubular membrane with selectivity towards CO₂†

Sonia Aguado,^a Charles-Henri Nicolas,^a Virginie Moizan-Baslé,^b Carlos Nieto,^c Hedi Amrouche,^c Nicolas Bats,^b Nathalie Audebrand^d and David Farrusseng*^a

Author affiliations

* Corresponding authors

^a IRCELYON, University Lyon, CNRS. 2, Av. Albert Einstein, Villeurbanne, France
E-mail: david.farrusseng@ircelyon.univ-lyon1.fr
Fax: +33(4)72445399

^b IFP, Physics and Analysis division BP3, Solaize, France

^c IFP, New Energy, Thermodynamic and Molecular Simulation Department, 1 & 4, Av. de Bois-Préau, Rueil-Malmaison, France

^d Sciences Chimiques de Rennes (UMR 6226) University Rennes 1, CNRS 263, Av. du Général Leclerc, Rennes, France

Abstract

A substituted imidazolate-based MOF (SIM-1) membrane has been crystallized in situ on a tubular asymmetric alumina support that can be exploited for gas separation through preferential adsorption.

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Article information

DOI: https://doi.org/10.1039/C0NJ00667J
Article type: Letter
Submitted: 27 Aug 2010
Accepted: 08 Oct 2010
First published: 28 Oct 2010

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New J. Chem., 2011,35, 41-44

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Facile synthesis of an ultramicroporous MOF tubular membrane with selectivity towards CO₂

S. Aguado, C. Nicolas, V. Moizan-Baslé, C. Nieto, H. Amrouche, N. Bats, N. Audebrand and D. Farrusseng, New J. Chem., 2011, 35, 41 DOI: 10.1039/C0NJ00667J

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