Synthesis of a Metal Ion Adsorbent from Banana Fibers and Its Adsorption Properties for Rare Metal Ions

Kajiyama, Tetsuto; Sakai, S.; Inoue, Jun; Yoshino, Toru; Ohmuro, Satoshi; Arai, Kensuke; Kokusen, Hisao

doi:10.5182/jaie.27.57

Cited by 8 publications

(6 citation statements)

References 16 publications

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“…The alkali treatment removed the lignin and hemicellulose present in the non-treated banana fiber. In our previous study, we reported the SEM images of the surfaces of the banana fibers before and after being subjected to alkaline treatment 13) . The smooth surfaces of the banana fibers were found to adopt a wavy morphology after alkali treatment, which was indicative of the presence of more hydroxy groups stemming from the cellulose on the surfaces of the banana fibers.…”

Section: Adsorption Properties Of Non-treated and Alkali-treated Banamentioning

confidence: 99%

“…In this context, the development of environmentally friendly ion-exchange methods and the use of chelate materials for the collection and separation of metal ions are attracting growing attention from many researchers [7][8][9][10][11] . Recently, we evaluated the adsorption properties of modified banana fiber for transition metal ions 12) and rare metal ions 13) . The adsorption of cesium and strontium ions was studied using banana fibers as adsorbents 14) .…”

Section: Introductionmentioning

confidence: 99%

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Adsorption of Rare-Earth Metal Ions on Natural Banana Fiber

Kajiyama

Arai

Ohmuro

et al. 2018

J.I.E.

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Section: Adsorption Properties Of Non-treated and Alkali-treated Banamentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Adsorption of Rare-Earth Metal Ions on Natural Banana Fiber

Kajiyama

Arai

Ohmuro

et al. 2018

J.I.E.

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“…However, it has no complexation ability with metal ions. Therefore, it has been reported on research for the adsorbents of metal ions using the modified cellulose fiber with various chelating agents such as thioglycollic acid 8) , thiolactic acid 9) , EDTA 10) and the Schiff base 11,12) .…”

Section: ( ) 43mentioning

confidence: 99%

Adsorption Behavior of Metal Ions on Cellulose Fiber Modified with Schiff Base Compound Having Pyridyl Groups

Okada

Yamada

Fujinaga

et al. 2018

J.I.E.

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A cellulose fiber was modified with Schiff base compound having the complexation ability of metal ions, and the modified cellulose fiber used as a metal ion adsorbent. The modified cellulose fiber was synthesized by reacting glycidyl methacrylate using diammonium cerium(IV) nitrate as a catalyst followd by reacting with bis-(2-pyridylmethylideneiminoethyl) amine as Schiff base compound having pyridyl groups. The obtained cellulose fiber, BPIEA-GMA grafted cellulose was characterized by SEM, IR, and XPS and used as a metal ion adsorbent. The adsorption behavior of metal ions on the BPIEA-GMA grafted cellulose was investigated. The examined metal ions except for Pb 2+ , Mn 2+ , and Rh 2+ were almost quantitatively adsorbed on the BPIEA-GMA grafted cellulose fiber. In addition, Pt 2+ and Pd 2+ able to adsorbed in hydrochloric acidic medium. The recovery of adsorbed metal ions except for precious metal ions from the adsorbent was successful, and the BPIEA-GMA grafted cellulose was able to use as a metal ion adsorbent by repeated twice. These results suggest that the modified cellulose fiber with Schiff base compound having pyridyl groups can be used as a metal ion adsorbents.

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“…Adsorption of dyes using bananaˆbers as adsorbent have been reported. 13 15) However, to our knowledge, barring our recent studies on adsorption of transition 16) and rare 17) metal ions using modiˆed bananaˆber as adsorbent, there is no other report of bananaˆber as adsorbent of metal ions.…”

Section: Introductionmentioning

confidence: 99%