Fabrication of nanocomposite membranes with high nanoparticle loading is a significant challenge because of the serious agglomeration of nanoparticles at high concentration. In this study, poly(ethylene glycol)-functionalized polyoctahedral oligomeric silsesquioxanes (PEG@POSS) nanoparticles were incorporated into a sodium alginate (SA) matrix to fabricate nanocomposite membranes. A large loading of PEG@POSS up to 50 wt% with a well dispersion in the membrane was achieved due to the good compatibility between PEG@POSS and alginate chains. Benefiting from the nanostructured size of PEG@POSS (1–3 nm), the obtained nanocomposite membranes possessed very thin active layers of 180–200 nm. A large quantity of hydrophilic PEG side chains enhanced the membrane surface hydrophilicity and offered massive water binding sites in the membranes. Homogeneously dispersed high content PEG@POSS nanoparticles increased the free volume of the nanocomposite membranes while maintaining a suitable free volume cavity size for water permeation. The optimum separation performance with a permeation flux of 2500 g m?2 h?1 and a separation factor of 1077 for dehydration of 90/10 wt% ethanol/water feed was achieved. Additionally, the effects of operation temperature and feed concentration on separation performance were investigated systematically.
Manru Wang,Ruisi Xing,Hong Wu,Fusheng Pan,Junjie Zhang,He Ding,Zhongyi Jiang.
Journal of Membrane Science,538,86-95(2017)