Change of gas permeation by photoinduced switching of zeolite-azobenzene membranes of type MFI and FAU

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • K. Weh
  • M. Noack
  • K. Hoffmann
  • K. P. Schröder
  • J. Caro

Externe Organisationen

  • Leibniz-Institut für Katalyse e. V. an der Universität Rostock (LIKAT)
  • Bundesanstalt für Materialforschung und -prüfung (BAM)
  • Humboldt-Universität zu Berlin (HU Berlin)
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Details

OriginalspracheEnglisch
Seiten (von - bis)15-26
Seitenumfang12
FachzeitschriftMicroporous and Mesoporous Materials
Jahrgang54
Ausgabenummer1-2
Frühes Online-Datum22 März 2002
PublikationsstatusVeröffentlicht - 1 Juli 2002
Extern publiziertJa

Abstract

FAU membranes of type Na-X and MFI membranes of type silicalite-1 which contain adsorbed azobenzene (AZB), have photoswitchable permeation properties due to the trans-cis photoisomerization of AZB. The change of gas permeation through these host-guest composite membranes depends on the irradiation wavelength, the quality of the membranes and the amount of adsorbed AZB. The permeances of the gases in the trans-form of the zeolite-encapsulated AZB were higher than those in the cis-form. The separation factors of equimolar mixtures of N2/CO2 and CH4/CO2 fed through the FAU-AZB membrane were higher at trans-switching than at cis-switching. The changes of the permeances of single gases and of the separation factors of equimolar gas mixtures by photoinduced trans-cis switching were found to be reversible over numerous switching cycles. The experimental results are in agreement with predictions made by Monte Carlo simulations for passing of permeant gases through these host-guest systems with the zeolitehosted AZB in the trans- and in the cis-configuration.

ASJC Scopus Sachgebiete

Zitieren

Change of gas permeation by photoinduced switching of zeolite-azobenzene membranes of type MFI and FAU. / Weh, K.; Noack, M.; Hoffmann, K. et al.
in: Microporous and Mesoporous Materials, Jahrgang 54, Nr. 1-2, 01.07.2002, S. 15-26.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Weh K, Noack M, Hoffmann K, Schröder KP, Caro J. Change of gas permeation by photoinduced switching of zeolite-azobenzene membranes of type MFI and FAU. Microporous and Mesoporous Materials. 2002 Jul 1;54(1-2):15-26. Epub 2002 Mär 22. doi: 10.1016/S1387-1811(02)00331-1
Weh, K. ; Noack, M. ; Hoffmann, K. et al. / Change of gas permeation by photoinduced switching of zeolite-azobenzene membranes of type MFI and FAU. in: Microporous and Mesoporous Materials. 2002 ; Jahrgang 54, Nr. 1-2. S. 15-26.
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abstract = "FAU membranes of type Na-X and MFI membranes of type silicalite-1 which contain adsorbed azobenzene (AZB), have photoswitchable permeation properties due to the trans-cis photoisomerization of AZB. The change of gas permeation through these host-guest composite membranes depends on the irradiation wavelength, the quality of the membranes and the amount of adsorbed AZB. The permeances of the gases in the trans-form of the zeolite-encapsulated AZB were higher than those in the cis-form. The separation factors of equimolar mixtures of N2/CO2 and CH4/CO2 fed through the FAU-AZB membrane were higher at trans-switching than at cis-switching. The changes of the permeances of single gases and of the separation factors of equimolar gas mixtures by photoinduced trans-cis switching were found to be reversible over numerous switching cycles. The experimental results are in agreement with predictions made by Monte Carlo simulations for passing of permeant gases through these host-guest systems with the zeolitehosted AZB in the trans- and in the cis-configuration.",
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T1 - Change of gas permeation by photoinduced switching of zeolite-azobenzene membranes of type MFI and FAU

AU - Weh, K.

AU - Noack, M.

AU - Hoffmann, K.

AU - Schröder, K. P.

AU - Caro, J.

PY - 2002/7/1

Y1 - 2002/7/1

N2 - FAU membranes of type Na-X and MFI membranes of type silicalite-1 which contain adsorbed azobenzene (AZB), have photoswitchable permeation properties due to the trans-cis photoisomerization of AZB. The change of gas permeation through these host-guest composite membranes depends on the irradiation wavelength, the quality of the membranes and the amount of adsorbed AZB. The permeances of the gases in the trans-form of the zeolite-encapsulated AZB were higher than those in the cis-form. The separation factors of equimolar mixtures of N2/CO2 and CH4/CO2 fed through the FAU-AZB membrane were higher at trans-switching than at cis-switching. The changes of the permeances of single gases and of the separation factors of equimolar gas mixtures by photoinduced trans-cis switching were found to be reversible over numerous switching cycles. The experimental results are in agreement with predictions made by Monte Carlo simulations for passing of permeant gases through these host-guest systems with the zeolitehosted AZB in the trans- and in the cis-configuration.

AB - FAU membranes of type Na-X and MFI membranes of type silicalite-1 which contain adsorbed azobenzene (AZB), have photoswitchable permeation properties due to the trans-cis photoisomerization of AZB. The change of gas permeation through these host-guest composite membranes depends on the irradiation wavelength, the quality of the membranes and the amount of adsorbed AZB. The permeances of the gases in the trans-form of the zeolite-encapsulated AZB were higher than those in the cis-form. The separation factors of equimolar mixtures of N2/CO2 and CH4/CO2 fed through the FAU-AZB membrane were higher at trans-switching than at cis-switching. The changes of the permeances of single gases and of the separation factors of equimolar gas mixtures by photoinduced trans-cis switching were found to be reversible over numerous switching cycles. The experimental results are in agreement with predictions made by Monte Carlo simulations for passing of permeant gases through these host-guest systems with the zeolitehosted AZB in the trans- and in the cis-configuration.

KW - Azobenzene

KW - FAU

KW - Host-guest interaction

KW - MFI membrane

KW - Monte Carlo simulation

KW - Photoswitchable permeation

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