2007
DOI: 10.1016/j.memsci.2007.07.009
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A facile method for synthesis of pegylated polyethersulfone and its application in fabrication of antifouling ultrafiltration membrane

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Cited by 162 publications
(60 citation statements)
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“…4 The risk of the fouling effect due to the high hydrophobicity of PES, especially in protein-contacting applications and aqueous ltrations, limits their wide applications. 2,3 Numerous research studies have reported efforts to enhance the hydrophilicity of the PES membrane surface. 1,5 Basically, the water contact angle (WCA) formed between the membrane-liquid boundary and liquid-gas tangent is generally employed to evaluate the hydrophilic properties of the membrane.…”
Section: -3mentioning
confidence: 99%
“…4 The risk of the fouling effect due to the high hydrophobicity of PES, especially in protein-contacting applications and aqueous ltrations, limits their wide applications. 2,3 Numerous research studies have reported efforts to enhance the hydrophilicity of the PES membrane surface. 1,5 Basically, the water contact angle (WCA) formed between the membrane-liquid boundary and liquid-gas tangent is generally employed to evaluate the hydrophilic properties of the membrane.…”
Section: -3mentioning
confidence: 99%
“…5 Poly(ether sulfone) (PES) has gained tremendous attention as a promising polymeric membrane material because of its outstanding chemical and physical properties (e.g., thermal stability, pressure, and heat resistance). 6,7 However, the inherent hydrophobicity of PES and the pressuredriven properties of ultrafiltration cause the poor antifouling properties of the ultrafiltration process with PES membranes. Membrane-fouling results from the deposition, adsorption, or adhesion of foulants such as protein molecules onto membranes, and the entrapment or aggregation of foulants in the pores can increase the hydraulic resistance to water flow and, thus, decrease the water permeability and economic efficiency.…”
Section: Introductionmentioning
confidence: 99%
“…The PDMS membranes synthesized up to now and evaluated in gas separation applications were in the form of a single layer (Choi et al, 2007;Raharjo, 2007) or of a composite with a macroporous support (Wu, 2006;Yeow, 2002), or a mixed matrix (Kim et al, 2004). As a glassy polymer, PSf has some favorable characteristics such as wide operating temperature limits; maximum and optimum physical properties such as strength and flexibility; good toughness; easy fabrication in a wide variety of configurations and modules and relative low cost, which make it suitable for gas separation processes (Xu and Qusay, 2004;Shi et al, 2007;Rafiq et al, 2012). The fabrication parameters of PSf, significantly affect its morphology and separation performance.…”
Section: Introductionmentioning
confidence: 99%