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Issue
Korean Journal of Chemical Engineering,
Vol.30, No.6, 1265-1271, 2013
Fabrication and modification of polyvinylchloride based heterogeneous cation exchange membranes by simultaneously using Fe-Ni oxide nanoparticles and Ag nanolayer: Physico-chemical and antibacterial characteristics
Zendehnam A, Arabzadegan M, Hosseini SM, Robatmili N, Madaeni SS
Polyvinylchloride-blend-styrene butadiene rubber based nanocomposite cation exchange membranes were prepared by solution casting technique. Iron-oxide nanoparticles and Ag-nanolayer were simultaneously utilized as filler and surface modifier in membrane fabrication. The effects of Ag-nanolayer film thickness on membrane physicochemical and antibacterial characteristics of nanocomposite PVC-blend-SBR/Iron-oxide nanoparticles were studied. SEM images showed membrane roughness decreasing by Ag nanolayer thickness increasing. Membrane charge density and selectivity declined by Ag nanolayer coating up to 5 nm in membranes and then showed increasing trend by more nanolayer thickness. Ionic flux also showed increasing trend. Membranes showed good ability in E-Coli removal. 20 nm Ag-nanolayer coated membrane showed better performance compared to others.
Keywords: Cation Exchange Membrane; Fabrication/Modification; Ag Nanolayer/Fe-Ni Oxide Nanoparticles; Physico Chemical/Antibacterial Characteristic; Synergy Phenomenon
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[Cited By]
  1. Zarrinkhameh M, Zendehnam A, Hosseini SM, Korean Journal of Chemical Engineering, 31(7), 1187, 2014
  2. Hosseini SM, Hamidi A, Moghadassi A, Madaeni SS, Korean Journal of Chemical Engineering, 32(3), 429, 2015
  3. Zendehnam A, Rabieyan M, Hosseini SM, Mokhtari S, Korean Journal of Chemical Engineering, 32(3), 501, 2015
  4. Bagheripour E, Moghadassi A, Hosseini SM, Korean Journal of Chemical Engineering, 33(4), 1462, 2016
  5. Hosseini SM, Bagheripour E, Ansari M, Korean Journal of Chemical Engineering, 34(6), 1774, 2017
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