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No.11(2016)15.Synthesis of a metal ion adsorbent using banana fibers and its rare metal ions adsorption properties
Tetsuto Kajiyama,Jun Inoue,Toru Yoshino
The synthesis of metal ion adsorbents using modified banana fibers having a Schiff base as a base material was investigated. In addition, the metal ion adsorption properties of the derived adsorbent were evaluated. Banana fibers (BF)-g-(glycidyl methacrylate)(GMA)(BF-GMA) were synthesized. A Schiff base derivative, 2-2’-{iminobis[ethane-2,1-diylnitrilo(E)methylidine]} bisphenol, was synthesized by the reaction of diethylenetriamine with 5-bromo-salicyialdehyde in methanol. A metal ion adsorbent (BF-GMA(Br)) was synthesized by the reaction of the Schiff base derivative with BF-GMA. Over 90 % of all the metal ions (La3+ , Gd3+ , Tm3+ , Pr3+ , Tb3+ , Yb3+ , Nd3+ , Dy3+ , Lu3+ , Sm3+ , Ho3+ , Eu3+ and Er3+ ) from pH 6.0 to 6.6 were adsorbed by the synthesized metal ion adsorbent. In addition, a maximum adsorption rate of almost 100 % at a pH of 3.0 to 4.0 for In3+ , and about 95% at a pH 3.9 for Ga3+ was demonstrated. For In3+ , an adsorption rate of about 15% at a pH of 1.4 to 1.6, and about 25 % at a pH of 1.8 was demonstrated. For Ga3+ , almost no adsorption property was demonstrated at a pH of 1.4 to 1.8. Therefore, separation of In3+ and Ga3+ is possible at a pH of 1.4 to 1.8. These results demonstrate the possibility of using banana fibers as a metal ion adsorbent.
Keywords
Banana fiber, Rare metal ion, Adsorbent
