Liquid gated membrane with self-cleaning properties for controllable removal and multi-component separation of organic/bacterial contaminants

Membrane technology plays an important role in sustainable water treatment; however, the non-adjustable pores make it difficult to achieve precise molecular separation, and membrane fouling remains a challenge in membrane processes. Herein, a smart liquid gated membrane (LGM) was prepared by filling different lubricants in the micropores of PET track-etched membrane that was pre-treated with nano roughening and fluorination. When the pressure exceeds a critical breakthrough pressure, the liquid lined pores are formed, and higher gating liquid/water interfacial tension requires higher pressure to break through the gate. The effective pore size of LGM increases with increasing pressure. When the pressure is removed, the liquid refilling that leads to pore-closing is promoted by lower lubricant viscosity and larger effective pore size. Through the tunable permeability, controllable removal and multi-component separation of organic/bacterial contaminants can be achieved. The maximum rejection for protein approaches 94 %; as the pressure increases, three components are separated in the order of pectin, soy protein isolate and Staphylococcus aureus with maximum separation coefficient of 56.7. Due to the stable lubricant lining, LGM shows excellent self-cleaning performance with much higher flux recovery rate than the non-lubricated membranes. This liquid gated membrane has great application prospects in size-fractionated separation and product recovery.