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Gel-based morphological design of zirconium metal-organic frameworks.
Bueken, Bart; Van Velthoven, Niels; Willhammar, Tom; Stassin, Timothée; Stassen, Ivo; Keen, David A; Baron, Gino V; Denayer, Joeri F M; Ameloot, Rob; Bals, Sara; De Vos, Dirk; Bennett, Thomas D.
  • Bueken B; Centre for Surface Chemistry and Catalysis , Department of Microbial and Molecular Systems (M2S) , KU Leuven , Celestijnenlaan 200F p.o. box 2461 , 3001 Leuven , Belgium . Email: dirk.devos@kuleuven.be.
  • Van Velthoven N; Centre for Surface Chemistry and Catalysis , Department of Microbial and Molecular Systems (M2S) , KU Leuven , Celestijnenlaan 200F p.o. box 2461 , 3001 Leuven , Belgium . Email: dirk.devos@kuleuven.be.
  • Willhammar T; EMAT , University of Antwerp , Groenenborgerlaan 171 , 2020 Antwerp , Belgium.
  • Stassin T; Department of Materials and Environmental Chemistry , Stockholm University , S-106 91 Stockholm , Sweden.
  • Stassen I; Centre for Surface Chemistry and Catalysis , Department of Microbial and Molecular Systems (M2S) , KU Leuven , Celestijnenlaan 200F p.o. box 2461 , 3001 Leuven , Belgium . Email: dirk.devos@kuleuven.be.
  • Keen DA; Centre for Surface Chemistry and Catalysis , Department of Microbial and Molecular Systems (M2S) , KU Leuven , Celestijnenlaan 200F p.o. box 2461 , 3001 Leuven , Belgium . Email: dirk.devos@kuleuven.be.
  • Baron GV; ISIS Facility , Rutherford Appleton Laboratory , Harwell Campus , Didcot , Oxon OX11 0QX , UK.
  • Denayer JFM; Department of Chemical Engineering , Vrije Universiteit Brussel , Pleinlaan 2 , 1050 Brussels , Belgium.
  • Ameloot R; Department of Chemical Engineering , Vrije Universiteit Brussel , Pleinlaan 2 , 1050 Brussels , Belgium.
  • Bals S; Centre for Surface Chemistry and Catalysis , Department of Microbial and Molecular Systems (M2S) , KU Leuven , Celestijnenlaan 200F p.o. box 2461 , 3001 Leuven , Belgium . Email: dirk.devos@kuleuven.be.
  • De Vos D; EMAT , University of Antwerp , Groenenborgerlaan 171 , 2020 Antwerp , Belgium.
  • Bennett TD; Centre for Surface Chemistry and Catalysis , Department of Microbial and Molecular Systems (M2S) , KU Leuven , Celestijnenlaan 200F p.o. box 2461 , 3001 Leuven , Belgium . Email: dirk.devos@kuleuven.be.
Chem Sci ; 8(5): 3939-3948, 2017 May 01.
Article en En | MEDLINE | ID: mdl-28553536
ABSTRACT
The ability of metal-organic frameworks (MOFs) to gelate under specific synthetic conditions opens up new opportunities in the preparation and shaping of hierarchically porous MOF monoliths, which could be directly implemented for catalytic and adsorptive applications. In this work, we present the first examples of xero- or aerogel monoliths consisting solely of nanoparticles of several prototypical Zr4+-based MOFs UiO-66-X (X = H, NH2, NO2, (OH)2), UiO-67, MOF-801, MOF-808 and NU-1000. High reactant and water concentrations during synthesis were observed to induce the formation of gels, which were converted to monolithic materials by drying in air or supercritical CO2. Electron microscopy, combined with N2 physisorption experiments, was used to show that irregular nanoparticle packing leads to pure MOF monoliths with hierarchical pore systems, featuring both intraparticle micropores and interparticle mesopores. Finally, UiO-66 gels were shaped into monolithic spheres of 600 µm diameter using an oil-drop method, creating promising candidates for packed-bed catalytic or adsorptive applications, where hierarchical pore systems can greatly mitigate mass transfer limitations.
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Texto completo: 1 Banco de datos: MEDLINE Idioma: En Año: 2017 Tipo del documento: Article
Texto completo
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PubMed Links
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Texto completo: 1 Banco de datos: MEDLINE Idioma: En Año: 2017 Tipo del documento: Article