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Fekri Abdulraqeb Ahmed Ali,Javed Alam,Arun Kumar Shukla,Mansour Alhoshan,Jamal M. Khaled,Waheed A. Al-Masry,Naiyaf S. Alharbi,Manawwer Alam 한국공업화학회 2019 Journal of Industrial and Engineering Chemistry Vol.80 No.-
Biofouling leads to degradation of membrane performance characteristics, including permeability,selectivity, and long-term stability. In this study, silver-doped graphene oxide (GO) was employed as ananoadditive to enhance the biofouling resistance of thin-film nanocomposite (TFN) membranes viainterfacial polymerization. Ag functionalization on GO sheets was carried out by a reduction reaction. Electron microscopy, Raman spectroscopy, and X-ray diffraction analyses were conducted to evaluate Agattachment on GO. According to zeta potential and contact angle measurements as well as atomic forcemicroscopy results, GO-Ag-incorporated TFN membranes showed a high negative charge, hydrophilicity,and a smooth surface. Bovine serum albumin protein and Escherichia coli (E. coli) were used as modelfouling agents to demonstrate the antifouling characteristics of the membranes. The TFN membranecontaining 80 ppm of GO-Ag had a high waterflux recovery ratio (89%) and low irreversible resistance(10%) after hydraulic washing. The biofouling resistance of the membranes was further studied by acolony-counting method, while bacterial adhesion was analyzed by spinning disk confocal microscopeimaging. The TFN membrane prepared with 80 ppm GO-Ag reduced 86% of viable E. coli cells in bacterialsuspensions, with only slight bacterial adherence on the membrane surface.