Mixed matrix membranes containing MOF’s for ethelyne/ethane separation. Part A: Membrane preparation and characterization

J. Ploegmakers; S. Japip; K. Nijmeijer

doi:10.1016/j.memsci.2012.11.014

Mixed matrix membranes containing MOF’s for ethelyne/ethane separation. Part A: Membrane preparation and characterization

J. Ploegmakers, S. Japip, K. Nijmeijer

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Mixed matrix membranes (MMMs) containing three different metal organic frameworks (MOFs) (Cu3BTC2, FeBTC and MIL-53 (Al)) as filler in P84 were prepared and characterized in terms of ethylene/ethane separating ability. SEM, TGA and DSC suggest the absence of non-selective voids in the Cu3BTC2 and FeBTC MMMs. Gas permeation experiments confirmed this, and showed an increase in ethylene/ethane selectivity of 73% to a value of 7.1, while ethylene permeability remained constant at 17×10−18 mol m/(m2 s Pa) with addition of 20 wt% Cu3BTC2. Addition of 20 wt% FeBTC showed a reduced permeability, caused by the formation of a denser intermediate layer, and no significant change in selectivity. Addition of MIL-53 led to increased permeabilities and no change in selectivity, which is probably the result of the formation of non-selective voids or the absence of inherent selectivity of MIL-53

Original language	English
Pages (from-to)	445
Number of pages	453
Journal	Journal of Membrane Science
Volume	428
DOIs	https://doi.org/10.1016/j.memsci.2012.11.014
Publication status	Published - 2013
Externally published	Yes

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@article{c773c83254d94db09bebbb4c12b0cb37,

title = "Mixed matrix membranes containing MOF{\textquoteright}s for ethelyne/ethane separation. Part A: Membrane preparation and characterization",

abstract = "Mixed matrix membranes (MMMs) containing three different metal organic frameworks (MOFs) (Cu3BTC2, FeBTC and MIL-53 (Al)) as filler in P84 were prepared and characterized in terms of ethylene/ethane separating ability. SEM, TGA and DSC suggest the absence of non-selective voids in the Cu3BTC2 and FeBTC MMMs. Gas permeation experiments confirmed this, and showed an increase in ethylene/ethane selectivity of 73% to a value of 7.1, while ethylene permeability remained constant at 17×10−18 mol m/(m2 s Pa) with addition of 20 wt% Cu3BTC2. Addition of 20 wt% FeBTC showed a reduced permeability, caused by the formation of a denser intermediate layer, and no significant change in selectivity. Addition of MIL-53 led to increased permeabilities and no change in selectivity, which is probably the result of the formation of non-selective voids or the absence of inherent selectivity of MIL-53",

author = "J. Ploegmakers and S. Japip and K. Nijmeijer",

year = "2013",

doi = "10.1016/j.memsci.2012.11.014",

language = "English",

volume = "428",

pages = "445",

journal = "Journal of Membrane Science",

issn = "0376-7388",

publisher = "Elsevier B.V.",

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TY - JOUR

T1 - Mixed matrix membranes containing MOF’s for ethelyne/ethane separation. Part A: Membrane preparation and characterization

AU - Ploegmakers, J.

AU - Japip, S.

AU - Nijmeijer, K.

PY - 2013

Y1 - 2013

N2 - Mixed matrix membranes (MMMs) containing three different metal organic frameworks (MOFs) (Cu3BTC2, FeBTC and MIL-53 (Al)) as filler in P84 were prepared and characterized in terms of ethylene/ethane separating ability. SEM, TGA and DSC suggest the absence of non-selective voids in the Cu3BTC2 and FeBTC MMMs. Gas permeation experiments confirmed this, and showed an increase in ethylene/ethane selectivity of 73% to a value of 7.1, while ethylene permeability remained constant at 17×10−18 mol m/(m2 s Pa) with addition of 20 wt% Cu3BTC2. Addition of 20 wt% FeBTC showed a reduced permeability, caused by the formation of a denser intermediate layer, and no significant change in selectivity. Addition of MIL-53 led to increased permeabilities and no change in selectivity, which is probably the result of the formation of non-selective voids or the absence of inherent selectivity of MIL-53

AB - Mixed matrix membranes (MMMs) containing three different metal organic frameworks (MOFs) (Cu3BTC2, FeBTC and MIL-53 (Al)) as filler in P84 were prepared and characterized in terms of ethylene/ethane separating ability. SEM, TGA and DSC suggest the absence of non-selective voids in the Cu3BTC2 and FeBTC MMMs. Gas permeation experiments confirmed this, and showed an increase in ethylene/ethane selectivity of 73% to a value of 7.1, while ethylene permeability remained constant at 17×10−18 mol m/(m2 s Pa) with addition of 20 wt% Cu3BTC2. Addition of 20 wt% FeBTC showed a reduced permeability, caused by the formation of a denser intermediate layer, and no significant change in selectivity. Addition of MIL-53 led to increased permeabilities and no change in selectivity, which is probably the result of the formation of non-selective voids or the absence of inherent selectivity of MIL-53

U2 - 10.1016/j.memsci.2012.11.014

DO - 10.1016/j.memsci.2012.11.014

M3 - Article

SN - 0376-7388

VL - 428

SP - 445

JO - Journal of Membrane Science

JF - Journal of Membrane Science

ER -

Mixed matrix membranes containing MOF’s for ethelyne/ethane separation. Part A: Membrane preparation and characterization

Abstract

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