Ruochen Liu
Oklahoma State University–Stillwater
10 Papers
16 Citations
Ruochen Liu is an academic researcher from Oklahoma State University–Stillwater. The author has contributed to research in topics: Membrane & Dehydrogenation. The author has an hindex of 7, co-authored 10 publications.
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Papers
Hydrophilicity-Controlled MFI-Type Zeolite-Coated Mesh for Oil/Water Separation
TL;DR: MFI-type zeolite was prepared on porous stainless steel mesh by in situ and secondary growth method, respectively as discussed by the authors, which showed great hydrophilicity, which absorbed water passing through the mesh driven by gravity and rejected oil simultaneously.
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Reduced wrinkling in GO membrane by grafting basal-plane groups for improved gas and liquid separations
TL;DR: In this article, a plane-plane connection of GO sheets was promoted in supported GO membranes by grafting oxalic acid (OA) molecules in GO basal plane, with subsequent crosslinking by ethylene diamine (EDA), better packing structure can be achieved with reduced wrinkling.
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Permselective H2/CO2 Separation and Desalination of Hybrid GO/rGO Membranes with Controlled Pre-cross-linking
TL;DR: With this method, restricted swelling by cross-linking and reduced d-spacing by GO reduction can be achieved simultaneously by controlling reaction time and the hybrid membrane shows excellent permselective H2/CO2 separation and high ion rejection rate.
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ZIF-8 membranes supported on silicalite-seeded substrates for propylene/propane separation
Shailesh Dangwal,Anil Ronte,Han Lin,Ruochen Liu,Jiahua Zhu,Jong Suk Lee,Heather Gappa-Fahlenkamp,Seok-Jhin Kim +7 more
TL;DR: In this paper, a ZIF-8 membrane was synthesized on a silicalite-seeded AAO substrate by secondary growth method, and an excellent propylene/propane separation factor of 170 was obtained in a silicallyite-seed ZIF8 membrane with ZnCl2.
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High-temperature ethane dehydrogenation in microporous zeolite membrane reactor: Effect of operating conditions
TL;DR: In this paper, the effects of MFI-type zeolite PBMR and operating conditions on ethane conversion, ethylene selectivity, and ethylene yield were investigated.
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