Then, we summarize the separation‐based applications of MXene membranes, including gas separation, water treatment, organic solvent purification, nanofluidic ion transport, and osmotic energy conversion. Finally, the bottlenecks that limit the application of MXene‐based membranes are outlined, and ...
An energy-efficient procedure to resolve this problem is water desalination with the aid of membranes currently used in the industries. Novel 2D-material-based membranes have promoted the removal of ions without subnanometer-scale size-adjusting. MXenes are one of the most attractive choices for ...
Removal of contaminants of emerging concerns and dyes by MXene-based membranes in water: A review MXenes are being currently studied extensively in various environmental fields, owing to their unique structures and chemical properties. Particularly, using MXenes as coatings on membranes can effectively...
Human-induced emissions demand effective CO2 separation technologies. Energy-efficient membranes, like MXenes with 2D structures, enhance selective gas permeation. This review highlights advancements in improving CO2 retention of MXene membranes, includi
Wu, X.L., Hao, L., Zhang, J.K., et al.: Polymer-Ti3C2Tx composite membranes to overcome the trade-off in solvent resistant nanofiltration for alcohol-based system. J. Membr. Sci. 515, 175–188 (2016). https://doi.org/10.1016/j.memsci.2016.05.048 Article CAS Google Scholar Dall...
Mojtabavi M, Vahidmohammadi A, Liang W, Beidaghi M, Wanunu M (2019) Single-molecule sensing using nanopores in two-dimensional transition metal carbide (MXene) membranes. ACS Nano 13:3042–3053. https://doi.org/10.1021/acsnano.8b08017 Article CAS PubMed Google Scholar Narayanan J, Sharma...
Our membranes are assembled with 2渭m titanium carbide nanosheets. The solvent permeance through such titanium carbide membrane is one order of magnitude higher than that through most polymeric nanofiltration membranes with similar antibiotics rejection. This high flux is due to the regular two銉緄men...
Advanced membranes that enable ultrafast water flux while demonstrating anti-biofouling characteristics can facilitate sustainable water/wastewater treatment processes. MXenes, two-dimensional (2D) metal carbides and nitrides, have attracted attention fo
6. MXene-based polymeric membranes for water treatment 7. Applications of MXene-based polymeric membrane in water treatment 8. Mechanism of separation in MXene-based polymeric membrane 9. Challenges and recommendations 10. Conclusion CRediT authorship contribution statement Declaration of Competing Interes...
Moreover, FTIR, water uptake capacity, water contact angle, electrical resistance and dynamic mechanical analysis were performed for MXene-based bipolar membranes. The results of XPS and the aluminum peak disappeared in the MXene spectrum at approximately 38.6掳 degrees from the XRD analysis implied...