Magnetic anion exchange resin (MD-1) was prepared from quaternization of magnetic copolymeric resin (glycidyl methacry- late-co-divinylbenzene). For comparison, magnetic resin MD-0 without quaternization and non-m...Magnetic anion exchange resin (MD-1) was prepared from quaternization of magnetic copolymeric resin (glycidyl methacry- late-co-divinylbenzene). For comparison, magnetic resin MD-0 without quaternization and non-magnetic resin (D-l) were also synthesized for the adsorption process. It was found that the adsorption was mainly contributed to the chemical interaction between quaternary ammonium groups and reactive blue RXHC. Due to the smaller size, MD- 1 had faster adsorption and desorption kinetics than D-1. Coupled with the advantage of easy separation, the magnetic anion exchange resin was considered to be superior to common anion exchange resin in removal of reactive dye.展开更多
基金support provided by the State Key Program of National Natural Science(No.50938004)the National Nature Science Fund for Distinguished Young Scientists(No.50825802)+1 种基金Jiangsu Nature Science Fund(No.BK2010006)the Resources Key Subject of National High Technology Research & Development Project(No.2009AA06Z315 and SQ2009AA06XK1482331),China
文摘Magnetic anion exchange resin (MD-1) was prepared from quaternization of magnetic copolymeric resin (glycidyl methacry- late-co-divinylbenzene). For comparison, magnetic resin MD-0 without quaternization and non-magnetic resin (D-l) were also synthesized for the adsorption process. It was found that the adsorption was mainly contributed to the chemical interaction between quaternary ammonium groups and reactive blue RXHC. Due to the smaller size, MD- 1 had faster adsorption and desorption kinetics than D-1. Coupled with the advantage of easy separation, the magnetic anion exchange resin was considered to be superior to common anion exchange resin in removal of reactive dye.
