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Literature DB >> 29098847

Selective Molecular Separation on Ti₃C₂T_x-Graphene Oxide Membranes during Pressure-Driven Filtration: Comparison with Graphene Oxide and MXenes.

Kyoung Min Kang¹, Dae Woo Kim¹, Chang E Ren², Kyeong Min Cho¹, Seon Joon Kim¹, Jung Hoon Choi¹, Yoon Tae Nam¹, Yury Gogotsi², Hee-Tae Jung¹.

Abstract

In this work, we prepared 90 nm thick Ti3C2Tx-graphene oxide (GO) membranes laminated on a porous support by mixing GO with Ti3C2Tx. This process was chosen to prevent the penetration of target molecules through inter-edge defects or voids with poor packing. The lattice period of the prepared membrane was 14.28 Å, as being swelled with water, resulting in an effective interlayer spacing of around 5 Å, which corresponds to two layers of water molecules. The composite membranes effectively rejected dye molecules with hydrated radii above 5 Å, as well as positively charged dye molecules, during pressure-driven filtration at 5 bar. Rejection rates were 68% for methyl red, 99.5% for methylene blue, 93.5% for rose Bengal, and 100% for brilliant blue (hydrated radii of 4.87, 5.04, 5.88, and 7.98 Å, respectively). Additionally, the rejections of composite membrane were compared with GO membrane and Ti3C2Tx membrane.

Entities: Chemical

Keywords: MXene; graphene oxide; membrane; nanofiltration; two-dimensional materials

Year: 2017 PMID： 29098847 DOI： 10.1021/acsami.7b10932

Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN： 1944-8244 Impact factor: 9.229

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Cited

7 in total

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4. Study on contact angles and surface energy of MXene films.

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6. Polyelectrolyte-grafted Ti₃C₂-MXenes stable in extreme salinity aquatic conditions for remediation of contaminated subsurface environments.

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Review 7. A Review of Advancing Two-Dimensional Material Membranes for Ultrafast and Highly Selective Liquid Separation.

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Journal: Nanomaterials (Basel) Date: 2022-06-18 Impact factor: 5.719