A Two‐Dimensional Lamellar Membrane: MXene Nanosheet Stacks
Two‐dimensional (2D) materials are promising candidates for advanced water purification membranes. A new kind of lamellar membrane is based on a stack of 2D MXene nanosheets. Starting from compact Ti3AlC2, delaminated nanosheets of the composition Ti3C2Tx with the functional groups T (O, OH, and/or...
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| Published in: | Angewandte Chemie International Edition Vol. 56; no. 7; pp. 1825 - 1829 |
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| Main Authors: | , , , , , |
| Format: | Journal Article |
| Language: | English |
| Published: |
Germany
Wiley Subscription Services, Inc
06.02.2017
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| Edition: | International ed. in English |
| Subjects: | |
| ISSN: | 1433-7851, 1521-3773, 1521-3773 |
| Online Access: | Get full text |
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| Abstract | Two‐dimensional (2D) materials are promising candidates for advanced water purification membranes. A new kind of lamellar membrane is based on a stack of 2D MXene nanosheets. Starting from compact Ti3AlC2, delaminated nanosheets of the composition Ti3C2Tx with the functional groups T (O, OH, and/or F) can be produced by etching and ultrasonication and stapled on a porous support by vacuum filtration. The MXene membrane supported on anodic aluminum oxide (AAO) substrate shows excellent water permeance (more than 1000 L m−2 h−1 bar−1) and favorable rejection rate (over 90 %) for molecules with sizes larger than 2.5 nm. The water permeance through the MXene membrane is much higher than that of the most membranes with similar rejections. Long‐time operation also reveals the outstanding stability of the MXene membrane for water purification.
A lamellar MXene membrane formed of two‐dimensional Ti3C2TX MXene nanosheets (see picture; purple sheets) with colloidal Fe(OH)3 (yellow spheres) as intercalator exhibits an excellent water permeance (more than 1000 L m−2 h−1 bar−1). The membrane, which was formed on anodic Al2O3, also has good stability and a high rejection rate (over 90 %) for molecules with sizes larger than 2.5 nm. |
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| AbstractList | Two-dimensional (2D) materials are promising candidates for advanced water purification membranes. A new kind of lamellar membrane is based on a stack of 2D MXene nanosheets. Starting from compact Ti
AlC
, delaminated nanosheets of the composition Ti
C
T
with the functional groups T (O, OH, and/or F) can be produced by etching and ultrasonication and stapled on a porous support by vacuum filtration. The MXene membrane supported on anodic aluminum oxide (AAO) substrate shows excellent water permeance (more than 1000 L m
h
bar
) and favorable rejection rate (over 90 %) for molecules with sizes larger than 2.5 nm. The water permeance through the MXene membrane is much higher than that of the most membranes with similar rejections. Long-time operation also reveals the outstanding stability of the MXene membrane for water purification. Two‐dimensional (2D) materials are promising candidates for advanced water purification membranes. A new kind of lamellar membrane is based on a stack of 2D MXene nanosheets. Starting from compact Ti 3 AlC 2 , delaminated nanosheets of the composition Ti 3 C 2 T x with the functional groups T (O, OH, and/or F) can be produced by etching and ultrasonication and stapled on a porous support by vacuum filtration. The MXene membrane supported on anodic aluminum oxide (AAO) substrate shows excellent water permeance (more than 1000 L m −2 h −1 bar −1 ) and favorable rejection rate (over 90 %) for molecules with sizes larger than 2.5 nm. The water permeance through the MXene membrane is much higher than that of the most membranes with similar rejections. Long‐time operation also reveals the outstanding stability of the MXene membrane for water purification. Two-dimensional (2D) materials are promising candidates for advanced water purification membranes. A new kind of lamellar membrane is based on a stack of 2D MXene nanosheets. Starting from compact Ti3 AlC2 , delaminated nanosheets of the composition Ti3 C2 Tx with the functional groups T (O, OH, and/or F) can be produced by etching and ultrasonication and stapled on a porous support by vacuum filtration. The MXene membrane supported on anodic aluminum oxide (AAO) substrate shows excellent water permeance (more than 1000 L m-2 h-1 bar-1 ) and favorable rejection rate (over 90 %) for molecules with sizes larger than 2.5 nm. The water permeance through the MXene membrane is much higher than that of the most membranes with similar rejections. Long-time operation also reveals the outstanding stability of the MXene membrane for water purification.Two-dimensional (2D) materials are promising candidates for advanced water purification membranes. A new kind of lamellar membrane is based on a stack of 2D MXene nanosheets. Starting from compact Ti3 AlC2 , delaminated nanosheets of the composition Ti3 C2 Tx with the functional groups T (O, OH, and/or F) can be produced by etching and ultrasonication and stapled on a porous support by vacuum filtration. The MXene membrane supported on anodic aluminum oxide (AAO) substrate shows excellent water permeance (more than 1000 L m-2 h-1 bar-1 ) and favorable rejection rate (over 90 %) for molecules with sizes larger than 2.5 nm. The water permeance through the MXene membrane is much higher than that of the most membranes with similar rejections. Long-time operation also reveals the outstanding stability of the MXene membrane for water purification. Two-dimensional (2D) materials are promising candidates for advanced water purification membranes. A new kind of lamellar membrane is based on a stack of 2D MXene nanosheets. Starting from compact Ti3AlC2, delaminated nanosheets of the composition Ti3C2Tx with the functional groups T (O, OH, and/or F) can be produced by etching and ultrasonication and stapled on a porous support by vacuum filtration. The MXene membrane supported on anodic aluminum oxide (AAO) substrate shows excellent water permeance (more than 1000Lm-2h-1bar-1) and favorable rejection rate (over 90%) for molecules with sizes larger than 2.5nm. The water permeance through the MXene membrane is much higher than that of the most membranes with similar rejections. Long-time operation also reveals the outstanding stability of the MXene membrane for water purification. Two‐dimensional (2D) materials are promising candidates for advanced water purification membranes. A new kind of lamellar membrane is based on a stack of 2D MXene nanosheets. Starting from compact Ti3AlC2, delaminated nanosheets of the composition Ti3C2Tx with the functional groups T (O, OH, and/or F) can be produced by etching and ultrasonication and stapled on a porous support by vacuum filtration. The MXene membrane supported on anodic aluminum oxide (AAO) substrate shows excellent water permeance (more than 1000 L m−2 h−1 bar−1) and favorable rejection rate (over 90 %) for molecules with sizes larger than 2.5 nm. The water permeance through the MXene membrane is much higher than that of the most membranes with similar rejections. Long‐time operation also reveals the outstanding stability of the MXene membrane for water purification. A lamellar MXene membrane formed of two‐dimensional Ti3C2TX MXene nanosheets (see picture; purple sheets) with colloidal Fe(OH)3 (yellow spheres) as intercalator exhibits an excellent water permeance (more than 1000 L m−2 h−1 bar−1). The membrane, which was formed on anodic Al2O3, also has good stability and a high rejection rate (over 90 %) for molecules with sizes larger than 2.5 nm. |
| Author | Wei, Yanying Caro, Jürgen Wang, Yanjie Ding, Li Chen, Hongbin Wang, Haihui |
| Author_xml | – sequence: 1 givenname: Li surname: Ding fullname: Ding, Li organization: South China University of Technology – sequence: 2 givenname: Yanying surname: Wei fullname: Wei, Yanying email: ceyywei@scut.edu.cn organization: South China University of Technology – sequence: 3 givenname: Yanjie surname: Wang fullname: Wang, Yanjie organization: South China University of Technology – sequence: 4 givenname: Hongbin surname: Chen fullname: Chen, Hongbin organization: South China University of Technology – sequence: 5 givenname: Jürgen surname: Caro fullname: Caro, Jürgen email: Juergen.caro@pci.uni-hannover.de organization: Leibniz University of Hannover – sequence: 6 givenname: Haihui surname: Wang fullname: Wang, Haihui email: hhwang@scut.edu.cn organization: South China University of Technology |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28071850$$D View this record in MEDLINE/PubMed |
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| CODEN | ACIEAY |
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| SubjectTerms | Aluminum Aluminum oxide Delamination Etching Functional groups Membranes MXenes Nanosheets Purification Rejection Rejection rate Reluctance separation Stacks Ti3C2TX two-dimensional nanosheets Vacuum Vacuum filtration Water purification |
| Title | A Two‐Dimensional Lamellar Membrane: MXene Nanosheet Stacks |
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