Biomimetic MXene membranes with negatively thermo-responsive switchable 2D nanochannels for graded molecular sieving

Negatively thermo-responsive 2D membranes, which mimic the stomatal opening/closing of plants, have drawn substantial interest for tunable molecular separation processes. However, these membranes are still restricted significantly on account of low water permeability and poor dynamic tunability of 2D nanochannels under temperature stimulation. Here, we present a biomimetic negatively thermo-responsive MXene membrane by covalently grafting poly (N-isopropylacrylamide) (PNIPAm) onto MXene nanosheets. The uniformly grafted PNIPAm polymer chains can enlarge the interlayer spacings for increasing water permeability while also allowing more tunability of 2D nanochannels for enhancing the capability of gradually separating multiple molecules of different sizes. As expected, the constructed membrane exhibits ultrahigh water permeance of 95.6 L m - 2 h - 1 bar - 1 at 25 degrees C, which is eight -fold higher than the state-of-the-art negatively thermoresponsive 2D membranes. Moreover, the highly temperature -tunable 2D nanochannels enable the constructed membrane to perform excellent graded molecular sieving for dye- and antibiotic -based ternary mixtures. This strategy provides new perspectives in engineering smart 2D membrane and expands the scope of temperature -responsive membranes, showing promising applications in micro/nanofluidics and molecular separation. (c) 2023 Institute of Process Engineering, Chinese Academy of Sciences. Publishing services by Elsevier B.V. on behalf of KeAi Communications Co., Ltd.