Bio-inspired polydopamine: A versatile and powerful platform for covalent synthesis of molecular sieve membranes

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Qian Liu
  • Nanyi Wang
  • Jürgen Caro
  • Aisheng Huang

Organisationseinheiten

Externe Organisationen

  • Chinese Academy of Sciences (CAS)
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Details

OriginalspracheEnglisch
Seiten (von - bis)17679-17682
Seitenumfang4
FachzeitschriftJournal of the American Chemical Society
Jahrgang135
Ausgabenummer47
Frühes Online-Datum15 Nov. 2013
PublikationsstatusVeröffentlicht - 27 Nov. 2013

Abstract

Inspired by the bioadhesive ability of the marine mussel, a simple, versatile, and powerful synthesis strategy was developed to prepare highly reproducible and permselective molecular sieve membranes by using polydopamine as a novel covalent linker. Attributing to the formation of strong covalent and noncovalent bonds, ZIF-8 nutrients are attracted and bound to the support surface, thus promoting the ZIF-8 nucleation and the growth of uniform, well intergrown, and phase-pure ZIF-8 molecular sieve membranes. The developed ZIF-8 membranes show high hydrogen selectivity and thermal stability. At 150 C and 1 bar, the mixture separation factors of H2/CO2, H 2/N2, H2/CH4, and H 2/C3H8 are 8.9, 16.2, 31.5 and 712.6, with H2 permeances higher than 1.8 × 10-7 mol·m-2·s-1·Pa-1, which is promising for hydrogen separation and purification.

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Bio-inspired polydopamine: A versatile and powerful platform for covalent synthesis of molecular sieve membranes. / Liu, Qian; Wang, Nanyi; Caro, Jürgen et al.
in: Journal of the American Chemical Society, Jahrgang 135, Nr. 47, 27.11.2013, S. 17679-17682.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Liu Q, Wang N, Caro J, Huang A. Bio-inspired polydopamine: A versatile and powerful platform for covalent synthesis of molecular sieve membranes. Journal of the American Chemical Society. 2013 Nov 27;135(47):17679-17682. Epub 2013 Nov 15. doi: 10.1021/ja4080562
Liu, Qian ; Wang, Nanyi ; Caro, Jürgen et al. / Bio-inspired polydopamine : A versatile and powerful platform for covalent synthesis of molecular sieve membranes. in: Journal of the American Chemical Society. 2013 ; Jahrgang 135, Nr. 47. S. 17679-17682.
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Download

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T1 - Bio-inspired polydopamine

T2 - A versatile and powerful platform for covalent synthesis of molecular sieve membranes

AU - Liu, Qian

AU - Wang, Nanyi

AU - Caro, Jürgen

AU - Huang, Aisheng

PY - 2013/11/27

Y1 - 2013/11/27

N2 - Inspired by the bioadhesive ability of the marine mussel, a simple, versatile, and powerful synthesis strategy was developed to prepare highly reproducible and permselective molecular sieve membranes by using polydopamine as a novel covalent linker. Attributing to the formation of strong covalent and noncovalent bonds, ZIF-8 nutrients are attracted and bound to the support surface, thus promoting the ZIF-8 nucleation and the growth of uniform, well intergrown, and phase-pure ZIF-8 molecular sieve membranes. The developed ZIF-8 membranes show high hydrogen selectivity and thermal stability. At 150 C and 1 bar, the mixture separation factors of H2/CO2, H 2/N2, H2/CH4, and H 2/C3H8 are 8.9, 16.2, 31.5 and 712.6, with H2 permeances higher than 1.8 × 10-7 mol·m-2·s-1·Pa-1, which is promising for hydrogen separation and purification.

AB - Inspired by the bioadhesive ability of the marine mussel, a simple, versatile, and powerful synthesis strategy was developed to prepare highly reproducible and permselective molecular sieve membranes by using polydopamine as a novel covalent linker. Attributing to the formation of strong covalent and noncovalent bonds, ZIF-8 nutrients are attracted and bound to the support surface, thus promoting the ZIF-8 nucleation and the growth of uniform, well intergrown, and phase-pure ZIF-8 molecular sieve membranes. The developed ZIF-8 membranes show high hydrogen selectivity and thermal stability. At 150 C and 1 bar, the mixture separation factors of H2/CO2, H 2/N2, H2/CH4, and H 2/C3H8 are 8.9, 16.2, 31.5 and 712.6, with H2 permeances higher than 1.8 × 10-7 mol·m-2·s-1·Pa-1, which is promising for hydrogen separation and purification.

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