Interfacial property of amphiphilic copolymer blending PVDF UF membrane and protein anti-fouling

被引：0

作者：

Meng X.-R. ^{[1
,2
]}

Lu B.-X. ^{[1
]}

Fu D.-H. ^{[1
]}

Xin X.-Q. ^{[2
]}

Tang W.-T. ^{[2
]}

机构：

[1] School of Science, Xi'an University of Architecture and Technology, Xi'an

[2] School of Environmental & Municipal Engineering, Xi'an University of Architecture and Technology, Xi'an

来源：

Huanjing Kexue | / 6卷 / 2179-2186期

关键词：

Amphiphilic polymer; Anti-fouling; Blending ultrafiltration membrane; Interfacial property; Phase transformation;

D O I：

10.13227/j.hjkx.2016.06.022

中图分类号：

学科分类号：

摘要：

The phase transformation kinetic process of amphiphilic copolymer polyoxyethylene/polyoxypropylene/polyoxyethylene [PEO-PPO-PEO(F127)] blending polyvinylidene fluoride (PVDF) casting solution in an aqueous gel bath was investigated. The influences of F127 content on the PEO enrichment rate of PVDF membrane surface, membrane morphology and structural parameters were investigated by a total reflection fourier transform infrared spectroscopy (ATR-FTIR), scanning electron microscope (SEM), atomic force microscopy (AFM) and other analytical techniques. F127/PVDF blending membrane fouling behavior of bovine serum albumin (BSA) was evaluated by the static adsorption capacity, normalized filtration decay rate and membrane fouling resistance model. The results showed that the membrane delayed phase separation process increased, the membrane surface, internal pore size and porosity increased and the surface roughness increased with increasing F127 addition, and the increment of PEO enrichment rate on the membrane surface became stable when the F127 content reached 15%. F127 blending membranes with F127 contents ranging from 15% to 25% had a higher flux and BSA rejection, lower static adsorption capacity, slower flux decay rate, lower irreversible fouling index and smaller pore blocking resistance and cake layer resistance distribution coefficient, which showed a good anti-fouling property. © 2016, Science Press. All right reserved.

引用

页码：2179 / 2186

页数：7

共 21 条

[1] Loh C.H., Wang R., Shi L., Et al., Fabrication of high performance polyethersulfone UF hollow fiber membranes using amphiphilic pluronic block copolymers as pore-forming additives, Journal of Membrane Science, 380, 1-2, pp. 114-123, (2011)
[2] Susanto H., Stahra N., Ulbricht M., High performance polyethersulfone microfiltration membranes having high flux and stable hydrophilic property, Journal of Membrane Science, 342, 1-2, pp. 153-164, (2009)
[3] Loh C.H., Wang R., Insight into the role of amphiphilic pluronic block copolymer as pore-forming additive in PVDF membrane formation, Journal of Membrane Science, 446, pp. 492-503, (2013)
[4] Zhang Y., Su Y.L., Chen W.J., Et al., A feasible post-treatment of drying and rewetting for preparation of high-flux pluronic F127/polyethersulfone nanofiltration membranes, Industrial & Engineering Chemistry Research, 50, 8, pp. 4678-4685, (2011)
[5] Wang Y.Q., Wang T., Su Y.L., Et al., Remarkable reduction of irreversible fouling and improvement of the permeation properties of poly(ether sulfone) ultrafiltration membranes by blending with Pluronic F127, Langmuir, 21, 25, pp. 11856-11862, (2005)
[6] Hester J.F., Banerjee P., Mayes A.M., Preparation of protein-resistant surfaces on poly (vinylidene fluoride) membranes via surface segregation, Macromolecules, 32, 5, pp. 1643-1650, (1999)
[7] Meng X.R., Tang W.T., Wang L., Et al., Mechanism analysis of membrane fouling behavior by humic acid using atomic force microscopy: Effect of solution pH and hydrophilicity of PVDF ultrafiltration membrane interface, Journal of Membrane Science, 487, pp. 180-188, (2015)
[8] Wang L., Miao R., Wang X.D., Et al., Fouling behavior of typical organic foulants in polyvinylidene fluoride ultrafiltration membranes: Characterization from microforces, Environmental Science & Technology, 47, 8, pp. 3708-3714, (2013)
[9] Luo J., Chan W.B., Wang L.Y., Et al., Probing interfacial interactions of bacteria on metal nanoparticles and substrates with different surface properties, International Journal of Antimicrobial Agents, 36, 6, pp. 549-556, (2010)
[10] Li J.F., Xu Z.L., Yang H., Microporous polyethersulfone membranes prepared under the combined precipitation conditions with non-solvent additives, Polymers for Advanced Technologies, 19, 4, pp. 251-257, (2008)

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