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Tailoring the Structure-Property Relationship of Ring-Opened Metathesis Copolymers for CO2-Selective Membranes

Authors
Hossain, IqubalHusna, AsmaulYoo, Seung YeonKim, Kwan IlKang, Jun HyeokPark, InhoLee, Byung KwanPark, Ho Bum
Issue Date
May-2024
Publisher
American Chemical Society
Keywords
antiplasticization; CO2 separation; gas separation; percolation behavior; ROMP polymer
Citation
ACS Applied Materials & Interfaces, v.16, no.20, pp 26743 - 26756
Pages
14
Indexed
SCIE
SCOPUS
Journal Title
ACS Applied Materials & Interfaces
Volume
16
Number
20
Start Page
26743
End Page
26756
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/194753
DOI
10.1021/acsami.4c02865
ISSN
1944-8244
1944-8252
Abstract
In this work, we explore the use of ring-opening metathesis polymerization (ROMP) facilitated by a second-generation Grubbs catalyst (G2) for the development of advanced polymer membranes aimed at CO2 separation. By employing a novel copolymer blend incorporating 4,4′-oxidianiline (ODA), 1,6-hexanediamine (HDA), 1-adamantylamine (AA), and 3,6,9-trioxaundecylamine (TA), along with a CO2-selective poly(ethylene glycol)/poly(propylene glycol) copolymer (Jeffamine2003) and polydimethylsiloxane (PDMS) units, we have synthesized membranes under ambient conditions with exceptional CO2 separation capabilities. The strategic inclusion of PDMS, up to a 20% composition within the PEG/PPG matrix, has resulted in copolymer membranes that not only surpass the 2008 upper limit for CO2/N2 separation but also meet the commercial targets for CO2/H2 separation. Comprehensive analysis reveals that these membranes adhere to the mixing rule and exhibit percolation behavior across the entire range of compositions (0-100%), maintaining robust antiplasticization performance even under pressures up to 20 atm. Our findings underscore the potential of ROMP in creating precisely engineered membranes for efficient CO2 separation, paving the way for their application in large-scale environmental and industrial processes.
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