Abstract
Porous PVDF blend membranes with good hydrophilicity and a symmetric structure were prepared by the phase inversion method using amphiphilic brush-like copolymers, P(MMA-r-PEGMA), as hydrophilic additive and triethylphosphate (TEP) as solvent. P(MMA-r-PEGMA) was synthesized by radical polymerization in TEP. Then the obtained amphiphilic copolymer solution was mixed with PVDF and TEP to prepare the dope solution. The effects of P(MMA-r-PEGMA) content and coagulation composition on membrane morphologies were investigated using scanning electron microscopy (SEM). The results demonstrated that, even blended with amphiphilic copolymers, a symmetric structure can be formed. Hollow fiber membranes with a mainly symmetric structure were also fabricated. The dry hollow fiber membranes showed good hydrophilicity, high flux and good rejection performance because of their hydrophilic surface and pores wall.
Highlights
Poly(vinylidene fluoride) (PVDF) is an important membrane material due to its excellent chemical resistance, thermal stability and mechanical properties
Effects of the P(MMA-r-PEGMA) Copolymer on the Flat Membrane Morphology Amphiphilic copolymers serve the key role for applicable preparation of blend membranes
The results indicated that the dry PVDF/P(MMA-r-PEGMA) blend membrane has good hydrophilicity both on the membrane surface and pores wall inside the membrane
Summary
Poly(vinylidene fluoride) (PVDF) is an important membrane material due to its excellent chemical resistance, thermal stability and mechanical properties. Exploring the methods of fabricating symmetric structures, sponge-like voids or lace morphology, should be the main task for preparing high performance PVDF/amphiphilic copolymer blend membranes. Among the solvents of PVDF, TEP based dope solution tends to form sponge-like void membranes due to the delayed phase separation in water coagulation bath[27−29].
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