An unprecedented c-oriented DDR@MWW zeolite hybrid membrane: new insights into H-2-permselectivities via six membered-ring pores

Authors
Jang, EunheeLee, Jeong HyeonHong, SungwonJeong, YanghwanKim, Jin ChulKim, DongjaeBaik, HionsuckKim, EunjooChoi, NakwonNam, JaewookCho, Sung JuneKwak, Sang KyuChoi, Jungkyu
Issue Date
2020-07-28
Publisher
ROYAL SOC CHEMISTRY
Citation
JOURNAL OF MATERIALS CHEMISTRY A, v.8, no.28, pp.14071 - 14081
Abstract
Despite the success of several types of homogeneous zeolite membranes, the manufacturing based on only one type of zeolite largely limits the flexible, reliable synthetic route toward the formation of continuous zeolite membranes. Herein, we demonstrate heterogeneous epitaxial growth of a seed layer using two structurally compatible zeolites. Specifically, MCM-22 (MWW type zeolites) seed layers were epitaxially grown with a synthetic precursor that leads to the DDR type zeolite. The resulting heterogeneous films, referred to as DDR@MWW hybrid films, were continuously formed on porous supports. Furthermore, heteroepitaxial growth of thec-oriented MCM-22 seed layer yielded a preferentialc-out-of-plane orientation; accordingly, six membered-ring (6-MR) pores (having a maximum size of similar to 0.28 nm) along thec-axis of the MWW and DDR zeolites were, for the first time, aligned in the out-of-plane direction. Subsequently, this good model sample was adopted for determining the H-2-permselectivities of the 6-MR pores; surprisingly, the 6-MR pores were rather impermeable to both H(2)and CO(2)molecules up to similar to 200 degrees C so that thec-oriented hybrid membrane exhibited modest CO2-permselectivities over N-2(0.364 nm) or CH4(0.38 nm) at the expense of reduced CO(2)molar flux. Lastly, this experimental observation was further complemented with rigorous molecular dynamics simulations on well-designed DDR zeolite membranes.
Keywords
HETEROEPITAXIAL GROWTH; HYDROGEN SEPARATION; MOLECULAR-HYDROGEN; PERFORMANCE; MCM-22; GAS; FILMS; MFI; PERVAPORATION; DEPOSITION; HETEROEPITAXIAL GROWTH; HYDROGEN SEPARATION; MOLECULAR-HYDROGEN; PERFORMANCE; MCM-22; GAS; FILMS; MFI; PERVAPORATION; DEPOSITION
ISSN
2050-7488
URI
https://pubs.kist.re.kr/handle/201004/118356
DOI
10.1039/d0ta03892j
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KIST Article > 2020
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