Association of europium(III), americium(III), and curium(III) with cellulose, chitin, and chitosan

Takuo Ozaki, Takaumi Kimura, Toshihiko Ohnuki, Akira Kirishima, Takahiro Yoshida, Hiroshi Isobe, Arokiasamy J. Francis

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8 Citations (Scopus)


The association of bivalent f-elements-Eu(III), Am(III), and Cm(III)-with cellulose, chitin, and chitosan was determined by batch experiments and time-resolved, laser-induced fluorescence spectroscopy (TRLFS). The properties of these biopolymers as an adsorbent were characterized based on speciation calculation of Eu(III). The adsorption study showed that an increase of the ionic strength by NaCl did not affect the adsorption kinetics of Eu(III), Am(III), and Cm(III) for all the biopolymers, but the addition of Na 2CO3 significantly delayed the kinetics because of their trivalent f-element complexation with carbonate ions. It also was suggested from the speciation calculation study that all the biopolymers were degraded under alkaline conditions, leading to their masking of the adsorption of Eu(III), Am(III), and Cm(III) on the nondegraded biopolymers. The masking effect was higher for cellulose than for chitin and chitosan, indicating that of the three, cellulose was degraded most significantly in alkaline solutions. Desorption experiments suggested that some portion of the adsorbed Eu(III) penetrated deep into the matrix, being isolated in a cavity-like site. The TRLFS study showed that the coordination environment of Eu(III) is stabilized mainly by the inner spherical coordination in chitin and by the outer spherical coordination in chitosan, with less association in cellulose in comparison to chitin and chitosan. These results suggest that the association of these biopolymers with Eu(III), Am(III), and Cm(III) is governed not only by the affinity of the functional groups alone but also by other factors, such as the macromolecular steric effect. The association of degraded materials of the biopolymers also should be taken into consideration for an accurate prediction of the influence of biopolymers on the migration behavior of trivalent f-elements.

Original languageEnglish
Pages (from-to)2051-2058
Number of pages8
JournalEnvironmental Toxicology and Chemistry
Issue number8
Publication statusPublished - 2006 Aug


  • Adsorption Desorption
  • Biopolymer
  • Coordination environment
  • Trivalent f-element


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