Palladium and platinum sorption using chitosan-based hydrogels.
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Data
2010
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Resumo
Two chitosan hydrogels (prepared by NaOH neutralization
and by polyphosphate ionotropic gelation) have
been tested in the dry state for Pd(II) and Pt(IV) sorption
at pH 2. Similar sorption isotherms with maximum sorption
capacities close to 190 mg Pd g−1 and 235 mg Pt g−1
were achieved. The sorption mechanism involves electrostatic
attraction of the chloro-anionic species onto protonated
amine groups; the drastic decrease of sorption capacity with
the addition of chloride ions supports this hypothesis. SEMEDAX
analysis suggests that sorption proceeds, in kinetic
terms, through a shrinking core mechanism. Metal ions can
diffuse throughout all the sorbent volume. The main differences
between the sorbents are revealed by kinetics. The
hydrogels prepared by ionotropic gelation in polyphosphate
(C-PPh) allows reaching equilibrium much faster than the
hydrogels prepared by the neutralization process (C-NaOH).
While for C-PPh sorbent the chemical reaction rate seems
to control sorption profiles, in the case of C-NaOH a combination
of mechanisms including intraparticle diffusion resistance
controls uptake kinetics. Metal desorption from loaded
sorbents is possible using thiourea alone or in association
with HCl solutions. The recycling of the sorbents is possible
but for a limited number of cycles.
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Palavras-chave
Chitosan, Ionotropic gelation, Sodium polyphosphate, Hydrogels
Citação
SICUPIRA, D. C. et al. Palladium and platinum sorption using chitosan-based hydrogels. Adsorption, Boston, v. 16, p. 127-139, 2010. Disponível em: <https://link.springer.com/article/10.1007/s10450-010-9210-9>. Acesso em: 20 jul. 2017.