Abstract
We report in this study the synthesis of mixed matrix reverse osmosis membranes by interfacial polymerization (IP) of thin film nanocomposite (TFNC) on porous polysulfone supports (PS). This paper investigates the synthesis of aluminum doped ZnO nanoparticles (NPs) using the sol–gel processing technique and evaluates the performance of mixed matrix membranes reached by these semiconducting NPs. Aqueous m-phenyl diamine (MPD) and organic trimesoyl chloride (TMC)-NPs mixture solutions were used in the IP process. The reaction of MPD and TMC at the interface of PS substrates resulted in the formation of the thin film composite (TFC). NPs of Al-doped ZnO with a size of about 25nm were used for the fabrication of the TFNC membranes. These membranes were characterized and evaluated in comparison with the neat TFC ones. Their performances were evaluated based on the water permeability and salt rejection. Experimental results indicated that the NPs improved membrane performance under optimal concentration of NPs. By changing the content of the filler, better hydrophilicity was obtained; the contact angle was decreased from 74° to 13°. Also, the permeate water flux was increased from 26 to 32L/m2h when the content of NPs is 0.5 (wt%) with the maintaining of high salt rejection of 98%.
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