Synthesis of highly hydrophobic and permselective metal-organic framework Zn(BDC)(TED)0.5 membranes for H2/CO2 separation

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Aisheng Huang
  • Yifei Chen
  • Qian Liu
  • Nanyi Wang
  • Jianwen Jiang
  • Jürgen Caro

Organisationseinheiten

Externe Organisationen

  • Chinese Academy of Sciences (CAS)
  • National University of Singapore
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Details

OriginalspracheEnglisch
Seiten (von - bis)126-132
Seitenumfang7
FachzeitschriftJournal of membrane science
Jahrgang454
Frühes Online-Datum16 Dez. 2013
PublikationsstatusVeröffentlicht - 15 März 2014

Abstract

Metal-organic frameworks (MOFs), as a newly developed family of crystalline microporous materials, have attracted considerable attention as promising candidates for the fabrication of superior molecular sieve membranes. For the synthesis of MOF membranes, the MOF's characteristics, such as pore size, stability, and adsorption affinity, have to be considered carefully. In this work, we prepare a highly hydrophobic and permselective Zn(BDC)(TED)0.5 membrane for H2/CO2 separation through secondary growth method with seeding. Attributed to the preferential adsorption affinity and capacity to CO2 as well as a highly porous structure with large channels, the Zn(BDC)(TED)0.5 membrane displays a high H2/CO2 permselectivity. For the separation of an equimolar H2/CO2 mixture at 180°C and 1bar, a H2 permeance of 2.65×10-6molm-2s-1Pa-1 and a H2/CO2 selectivity of 12.1 are obtained. Furthermore, because of its high hydrophobicity, the pore volume of Zn(BDC)(TED)0.5 is not blocked in the presence of steam, which is promising for potential applications of hydrogen separation and purification.

ASJC Scopus Sachgebiete

Zitieren

Synthesis of highly hydrophobic and permselective metal-organic framework Zn(BDC)(TED)0.5 membranes for H2/CO2 separation. / Huang, Aisheng; Chen, Yifei; Liu, Qian et al.
in: Journal of membrane science, Jahrgang 454, 15.03.2014, S. 126-132.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Huang A, Chen Y, Liu Q, Wang N, Jiang J, Caro J. Synthesis of highly hydrophobic and permselective metal-organic framework Zn(BDC)(TED)0.5 membranes for H2/CO2 separation. Journal of membrane science. 2014 Mär 15;454:126-132. Epub 2013 Dez 16. doi: 10.1016/j.memsci.2013.12.018
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title = "Synthesis of highly hydrophobic and permselective metal-organic framework Zn(BDC)(TED)0.5 membranes for H2/CO2 separation",
abstract = "Metal-organic frameworks (MOFs), as a newly developed family of crystalline microporous materials, have attracted considerable attention as promising candidates for the fabrication of superior molecular sieve membranes. For the synthesis of MOF membranes, the MOF's characteristics, such as pore size, stability, and adsorption affinity, have to be considered carefully. In this work, we prepare a highly hydrophobic and permselective Zn(BDC)(TED)0.5 membrane for H2/CO2 separation through secondary growth method with seeding. Attributed to the preferential adsorption affinity and capacity to CO2 as well as a highly porous structure with large channels, the Zn(BDC)(TED)0.5 membrane displays a high H2/CO2 permselectivity. For the separation of an equimolar H2/CO2 mixture at 180°C and 1bar, a H2 permeance of 2.65×10-6molm-2s-1Pa-1 and a H2/CO2 selectivity of 12.1 are obtained. Furthermore, because of its high hydrophobicity, the pore volume of Zn(BDC)(TED)0.5 is not blocked in the presence of steam, which is promising for potential applications of hydrogen separation and purification.",
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TY - JOUR

T1 - Synthesis of highly hydrophobic and permselective metal-organic framework Zn(BDC)(TED)0.5 membranes for H2/CO2 separation

AU - Huang, Aisheng

AU - Chen, Yifei

AU - Liu, Qian

AU - Wang, Nanyi

AU - Jiang, Jianwen

AU - Caro, Jürgen

PY - 2014/3/15

Y1 - 2014/3/15

N2 - Metal-organic frameworks (MOFs), as a newly developed family of crystalline microporous materials, have attracted considerable attention as promising candidates for the fabrication of superior molecular sieve membranes. For the synthesis of MOF membranes, the MOF's characteristics, such as pore size, stability, and adsorption affinity, have to be considered carefully. In this work, we prepare a highly hydrophobic and permselective Zn(BDC)(TED)0.5 membrane for H2/CO2 separation through secondary growth method with seeding. Attributed to the preferential adsorption affinity and capacity to CO2 as well as a highly porous structure with large channels, the Zn(BDC)(TED)0.5 membrane displays a high H2/CO2 permselectivity. For the separation of an equimolar H2/CO2 mixture at 180°C and 1bar, a H2 permeance of 2.65×10-6molm-2s-1Pa-1 and a H2/CO2 selectivity of 12.1 are obtained. Furthermore, because of its high hydrophobicity, the pore volume of Zn(BDC)(TED)0.5 is not blocked in the presence of steam, which is promising for potential applications of hydrogen separation and purification.

AB - Metal-organic frameworks (MOFs), as a newly developed family of crystalline microporous materials, have attracted considerable attention as promising candidates for the fabrication of superior molecular sieve membranes. For the synthesis of MOF membranes, the MOF's characteristics, such as pore size, stability, and adsorption affinity, have to be considered carefully. In this work, we prepare a highly hydrophobic and permselective Zn(BDC)(TED)0.5 membrane for H2/CO2 separation through secondary growth method with seeding. Attributed to the preferential adsorption affinity and capacity to CO2 as well as a highly porous structure with large channels, the Zn(BDC)(TED)0.5 membrane displays a high H2/CO2 permselectivity. For the separation of an equimolar H2/CO2 mixture at 180°C and 1bar, a H2 permeance of 2.65×10-6molm-2s-1Pa-1 and a H2/CO2 selectivity of 12.1 are obtained. Furthermore, because of its high hydrophobicity, the pore volume of Zn(BDC)(TED)0.5 is not blocked in the presence of steam, which is promising for potential applications of hydrogen separation and purification.

KW - H/CO separation

KW - Metal-organic frameworks

KW - Molecular sieve membrane

KW - Simulation study

KW - Zn(BDC)(TED) membrane

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