Polypiperazine-amide membranes were modified with poly(ethyleneimine)(PEI) by self-assembled method,through which PEI molecules were fixed on the membrane surface by ionic interaction. In the experiments,the PEI conce...Polypiperazine-amide membranes were modified with poly(ethyleneimine)(PEI) by self-assembled method,through which PEI molecules were fixed on the membrane surface by ionic interaction. In the experiments,the PEI concentration ranged from 50 to 2000 mg·L-1while the depositing time was fixed at 20 min. The results showed that low PEI concentration resulted in a slight increase of pure water flux, which was attributed to the enhanced membrane surface hydrophilicity. The PEI adsorption on membrane surface had less effect on the rejections to neutral PEG and sucrose, but improved the rejections to divalent cationic ions and methylene blue as the result of reversion of the membrane surface charge from negative to positive according to the XPS analysis and zeta potential measurements. The membrane modified at PEI = 1500 mg·L-1exhibited high rejection to methylene blue(MB) and is potential to be applied in the treatment of effluents containing positively charged dyes.展开更多
基金Support by the National High Technology Research and Development Program of China(863 Program)(2012AA03A608)the Open Foundation of Zhejiang Provincial Top Key Academic Discipline of Applied Chemistry and Eco-Dyeing&Finishing Engineering(YR2012012)
文摘Polypiperazine-amide membranes were modified with poly(ethyleneimine)(PEI) by self-assembled method,through which PEI molecules were fixed on the membrane surface by ionic interaction. In the experiments,the PEI concentration ranged from 50 to 2000 mg·L-1while the depositing time was fixed at 20 min. The results showed that low PEI concentration resulted in a slight increase of pure water flux, which was attributed to the enhanced membrane surface hydrophilicity. The PEI adsorption on membrane surface had less effect on the rejections to neutral PEG and sucrose, but improved the rejections to divalent cationic ions and methylene blue as the result of reversion of the membrane surface charge from negative to positive according to the XPS analysis and zeta potential measurements. The membrane modified at PEI = 1500 mg·L-1exhibited high rejection to methylene blue(MB) and is potential to be applied in the treatment of effluents containing positively charged dyes.