Hetero-dimensional 1D silk nanofibril and 2D MXene composite membrane with tailorable nanofluidic channels for enhanced water purification
JOURNAL OF MEMBRANE SCIENCE(2024)
摘要
Laminar membranes assembled with two-dimensional (2D) nanosheets, where the confined space provides efficient sieving performance at nanoscale, have attracted widespread interests for precise molecular separation. However, regarding the trade -off effect between selectivity and permeability, as well as the swelling issues of nanosheets, to maintain the stability of 2D laminar membranes remain a great challenge. Herein, 1D silk nanofibers (SNFs) was introduced to 2D MXene nanosheets to design a 1D/2D heterojunction structure for fabricating 2D laminar membrane with tunable interlayer distance and enhanced stability. The SNFs expanded the d-spacing of MXene nanosheets and enhanced the stability of the membranes due to their strong interactions and excellent mechanical toughness. The optimized membrane possessed a remarkable pure water permeability (24.45 L m- 2 h-1 bar -1) and dyes rejections (99.41% against congo red (MW: 696.7 Da), 99.43% against xylene brilliant cyanin G250 (MW: 854.0 Da) and 99.08% against methyl blue (MW: 799.8 Da)). Moreover, the decorated membrane exhibited moderate salt rejections against Na2SO4 (64.30%), MgSO4 (14.35%), MgCl2 (3.90%) and NaCl (15.85%), which was rather competitive for separating dye/salt mixed solutions.
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关键词
Silk nanofiber,MXene nanosheets,1D/2d heterojunction,2D lamellar membrane,Dye/salt separation
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