Abstract Hydrophilic and hemocompatible surface design is vital for poly(vinylidene fluoride) (PVDF) membranes in biological application especially for hemodialysis. In this work, the influence and synergistic effect of PVDF-g-(acryloyl morpholine)… Click to show full abstract
Abstract Hydrophilic and hemocompatible surface design is vital for poly(vinylidene fluoride) (PVDF) membranes in biological application especially for hemodialysis. In this work, the influence and synergistic effect of PVDF-g-(acryloyl morpholine) (PVDF-g-ACMO) and PVDF-g-(poly(acrylic acid)-argatroban) (PVDF-g-(PAA-AG)) copolymers blending modification on structure and properties of PVDF membrane were investigated. The membranes were prepared through immersion phase transition method. The copolymer structure was characterized by FT-IR and 1H NMR. Modified membrane surfaces obtained were characterized by XPS. The blending modified PVDF hollow fiber membranes were confirmed to have excellent hydrophilicity, good hemocompatibility properties (protein adsorption, platelets/ red blood cells adhesion, plasma coagulation), good permeability and anti-protein fouling performance. The hydrophilic and anti-hemolytic properties were significantly improved with the weight percentage of PVDF-g-ACMO copolymer, and PVDF-g-(PAA-AG) copolymer endow the anti-coagulation of modified membranes. And when the blend ratio was up to 1:3, the blend membranes show the longest clotting time (APTT 114.15 s and PT 25.65 s). This work provides a new modification method to improve the hemocompatibility for PVDF membranes in potential biological applications.
               
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