Anisotropic Gas Separation in Oriented ZIF-95 Membranes Prepared by Vapor-Assisted In-Plane Epitaxial Growth

Xixi Ma; Zheng Wan; Yanhong Li; Xiao He; Jürgen Caro; Aisheng Huang

doi:10.1002/anie.202008260

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Originalsprache	Englisch
Seiten (von - bis)	20858-20862
Seitenumfang	5
Fachzeitschrift	Angewandte Chemie - International Edition
Jahrgang	59
Ausgabenummer	47
Frühes Online-Datum	7 Aug. 2020
Publikationsstatus	Veröffentlicht - 9 Nov. 2020

Abstract

Control of the microstructure grain orientation, grain boundaries and thickness are crucial for MOF membranes. We report a novel synthesis strategy to prepare highly c-oriented ZIF-95 membranes through vapor-assisted in-plane epitaxial growth. In a mixed DMF/water vapor atmosphere, in-plane epitaxial growth of a ZIF-95 seeds layer was achieved to obtain an oriented and well-intergrown ZIF-95 membrane with a thickness of only 600 nm. Demonstrated by both experimental and simulation studies, the c-oriented ZIF-95 membrane displayed superior separation performance because a perfectly oriented structure resulted in a notable reduction of intercrystalline defects and transport pathways. For the separation of equimolar binary mixtures at 100 °C and 1 bar, the mixture separation factors of H₂/CO₂ and H₂/CH₄ were 32.2 and 53.7, respectively, with an H₂ permeance of over 7.9×10⁻⁷ mol m⁻² s⁻¹ Pa⁻¹, which was 4.6 times higher than that of a randomly oriented ZIF-95 membrane.

ASJC Scopus Sachgebiete

Chemische Verfahrenstechnik (insg.)
Katalyse
Chemie (insg.)
Allgemeine Chemie

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Anisotropic Gas Separation in Oriented ZIF-95 Membranes Prepared by Vapor-Assisted In-Plane Epitaxial Growth. / Ma, Xixi; Wan, Zheng; Li, Yanhong et al.
in: Angewandte Chemie - International Edition, Jahrgang 59, Nr. 47, 09.11.2020, S. 20858-20862.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Ma, X, Wan, Z, Li, Y, He, X, Caro, J & Huang, A 2020, 'Anisotropic Gas Separation in Oriented ZIF-95 Membranes Prepared by Vapor-Assisted In-Plane Epitaxial Growth', Angewandte Chemie - International Edition, Jg. 59, Nr. 47, S. 20858-20862. https://doi.org/10.1002/anie.202008260, https://doi.org/10.1002/ange.202008260

Ma, X., Wan, Z., Li, Y., He, X., Caro, J., & Huang, A. (2020). Anisotropic Gas Separation in Oriented ZIF-95 Membranes Prepared by Vapor-Assisted In-Plane Epitaxial Growth. Angewandte Chemie - International Edition, 59(47), 20858-20862. https://doi.org/10.1002/anie.202008260, https://doi.org/10.1002/ange.202008260

Ma X, Wan Z, Li Y, He X, Caro J, Huang A. Anisotropic Gas Separation in Oriented ZIF-95 Membranes Prepared by Vapor-Assisted In-Plane Epitaxial Growth. Angewandte Chemie - International Edition. 2020 Nov 9;59(47):20858-20862. Epub 2020 Aug 7. doi: 10.1002/anie.202008260, 10.1002/ange.202008260

Ma, Xixi ; Wan, Zheng ; Li, Yanhong et al. / Anisotropic Gas Separation in Oriented ZIF-95 Membranes Prepared by Vapor-Assisted In-Plane Epitaxial Growth. in: Angewandte Chemie - International Edition. 2020 ; Jahrgang 59, Nr. 47. S. 20858-20862.

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title = "Anisotropic Gas Separation in Oriented ZIF-95 Membranes Prepared by Vapor-Assisted In-Plane Epitaxial Growth",

abstract = "Control of the microstructure grain orientation, grain boundaries and thickness are crucial for MOF membranes. We report a novel synthesis strategy to prepare highly c-oriented ZIF-95 membranes through vapor-assisted in-plane epitaxial growth. In a mixed DMF/water vapor atmosphere, in-plane epitaxial growth of a ZIF-95 seeds layer was achieved to obtain an oriented and well-intergrown ZIF-95 membrane with a thickness of only 600 nm. Demonstrated by both experimental and simulation studies, the c-oriented ZIF-95 membrane displayed superior separation performance because a perfectly oriented structure resulted in a notable reduction of intercrystalline defects and transport pathways. For the separation of equimolar binary mixtures at 100 °C and 1 bar, the mixture separation factors of H2/CO2 and H2/CH4 were 32.2 and 53.7, respectively, with an H2 permeance of over 7.9×10−7 mol m−2 s−1 Pa−1, which was 4.6 times higher than that of a randomly oriented ZIF-95 membrane.",

keywords = "hydrogen separation, metal–organic frameworks membrane, molecular sieve membrane, oriented growth, ZIF-95 membranes",

author = "Xixi Ma and Zheng Wan and Yanhong Li and Xiao He and J{\"u}rgen Caro and Aisheng Huang",

note = "Funding Information: Financial supports by the National Natural Science Foundation of China (21761132003, 21878100, 21922301, and 21761132022) and DFG are acknowledged. ",

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T1 - Anisotropic Gas Separation in Oriented ZIF-95 Membranes Prepared by Vapor-Assisted In-Plane Epitaxial Growth

AU - Ma, Xixi

AU - Wan, Zheng

AU - Li, Yanhong

AU - He, Xiao

AU - Caro, Jürgen

AU - Huang, Aisheng

N1 - Funding Information: Financial supports by the National Natural Science Foundation of China (21761132003, 21878100, 21922301, and 21761132022) and DFG are acknowledged.

PY - 2020/11/9

Y1 - 2020/11/9

N2 - Control of the microstructure grain orientation, grain boundaries and thickness are crucial for MOF membranes. We report a novel synthesis strategy to prepare highly c-oriented ZIF-95 membranes through vapor-assisted in-plane epitaxial growth. In a mixed DMF/water vapor atmosphere, in-plane epitaxial growth of a ZIF-95 seeds layer was achieved to obtain an oriented and well-intergrown ZIF-95 membrane with a thickness of only 600 nm. Demonstrated by both experimental and simulation studies, the c-oriented ZIF-95 membrane displayed superior separation performance because a perfectly oriented structure resulted in a notable reduction of intercrystalline defects and transport pathways. For the separation of equimolar binary mixtures at 100 °C and 1 bar, the mixture separation factors of H2/CO2 and H2/CH4 were 32.2 and 53.7, respectively, with an H2 permeance of over 7.9×10−7 mol m−2 s−1 Pa−1, which was 4.6 times higher than that of a randomly oriented ZIF-95 membrane.

AB - Control of the microstructure grain orientation, grain boundaries and thickness are crucial for MOF membranes. We report a novel synthesis strategy to prepare highly c-oriented ZIF-95 membranes through vapor-assisted in-plane epitaxial growth. In a mixed DMF/water vapor atmosphere, in-plane epitaxial growth of a ZIF-95 seeds layer was achieved to obtain an oriented and well-intergrown ZIF-95 membrane with a thickness of only 600 nm. Demonstrated by both experimental and simulation studies, the c-oriented ZIF-95 membrane displayed superior separation performance because a perfectly oriented structure resulted in a notable reduction of intercrystalline defects and transport pathways. For the separation of equimolar binary mixtures at 100 °C and 1 bar, the mixture separation factors of H2/CO2 and H2/CH4 were 32.2 and 53.7, respectively, with an H2 permeance of over 7.9×10−7 mol m−2 s−1 Pa−1, which was 4.6 times higher than that of a randomly oriented ZIF-95 membrane.

KW - hydrogen separation

KW - metal–organic frameworks membrane

KW - molecular sieve membrane

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Research@Leibniz University

Anisotropic Gas Separation in Oriented ZIF-95 Membranes Prepared by Vapor-Assisted In-Plane Epitaxial Growth

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