Permselective H2/CO2 Separation and Desalination of Hybrid GO/rGO Membranes with Controlled Pre-cross-linking

Han Lin, Ruochen Liu, Shailesh Dangwal, Seok Jhin Kim, Nitin Mehra, Yifan Li, Jiahua Zhu

Research output: Contribution to journalArticlepeer-review

39 Scopus citations

Abstract

Covalent bonding is widely adopted in graphene oxide (GO) membrane to improve structural integrity and restrict swelling, while it comes with a price of enlarged d-spacing and sacrifices membrane selectivity. This work offers a facile strategy to break the trade-off between membrane stability and selectivity. Specifically, graphene oxide (GO)/reduced graphene oxide (rGO) hybrid membranes were fabricated by a controlled pre-cross-linking method. With this method, restricted swelling by cross-linking and reduced d-spacing by GO reduction can be achieved simultaneously by controlling reaction time. Membranes were prepared on porous alumina support by vacuum filtration method. Two different d-spacing values (∼12.0 and ∼7.5 Å) were found in the hybrid membrane, representing the layer structures of expanded GO interspacing with inserted cross-linker and reduced layer spacing after GO reduction. The presence of such mixed layer structures enables restricted swelling, excellent mechanical strength, and unique separation property. The hybrid membrane shows excellent permselective H2/CO2 separation with a separation factor of 22.93 ± 1.57 and H2 permeance of 2.46 ± 0.01× 10-8 mol m-2 s-1 Pa-1. In desalination test with 3.5 wt % sea salt solution, the hybrid membrane shows high ion (Na+, K+, Mg2+, Cl-, and SO42-) rejection rate of above 99%, as well as excellent durability.

Original languageEnglish
Pages (from-to)28166-28175
Number of pages10
JournalACS Applied Materials and Interfaces
Volume10
Issue number33
DOIs
StatePublished - Aug 22 2018
Externally publishedYes

Funding

Acknowledgement is made to the donors of the American Chemical Society Petroleum Research Fund (55570-DNI10) and NSF (CBET-1603264). We also thank the National Energy Solutions InstituteSmart Energy Source (NESI-SES) and the Technology and Business Development Program (TBDP) for partial funding of this work.

FundersFunder number
National Energy Solutions InstituteSmart Energy Source
Technology and Business Development Program
National Science FoundationCBET-1603264
American Chemical Society Petroleum Research Fund55570-DNI10

    Keywords

    • desalination
    • gas separation
    • graphene oxide
    • hybrid membrane
    • selectivity

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