Ľuboš Vrtoch scite author profile

The recovery of cerium (and possibly other rare earth elements) from the spent glass-polishing slurries is rather difficult because of a high resistance of polishing-grade cerium oxide toward common digestion agents. It was shown that cerium may be extracted from the spent polishing slurries by leaching with strong mineral acids in the presence of reducing agents; the solution may be used directly for the preparation of a ceria-based reactive sorbent. A mixture of concentrated nitric acid and hydrogen peroxide was effective in the digestion of partially dewatered glass-polishing slurry. After the removal of undissolved particles, cerous carbonate was precipitated by gaseous NH3and CO2. Cerium oxide was prepared by a thermal decomposition of the carbonate precursor in an open crucible and tested as reactive sorbent for the degradation of highly toxic organophosphate compounds. The samples annealed at the optimal temperature of approximately 400°C exhibited a good degradation efficiency toward the organophosphate pesticide fenchlorphos and the nerve agents soman and VX. The extraction/precipitation procedure recovers approximately 70% of cerium oxide from the spent polishing slurry. The presence of minor amounts of lanthanum does not disturb the degradation efficiency.

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Sorption of cesium from water solutions on potassium nickel hexacyanoferrate-modified Agaricus bisporus mushroom biomass

Vrtoch

Pipíška

Horník

et al. 2010

J Radioanal Nucl Chem

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Biosorption of Co2+ ions by lichen Hypogymnia physodes from aqueous solutions

et al. 2007

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Cobalt is one of the possible contaminants originating from radioactive wastes or from metal mines and refineries. This paper describes sorption of cobalt by the foliose lichen Hypogymnia physodes from CoCl2 solutions spiked with 60 Co 2+in laboratory experiments. Maximum uptake was reached within 1 hour; the biosorption after 24 hours is not pH-dependent within the range of pH 4-7, negligible at pH 2 and is not dependent on metabolic activity. The process can be described by the Freundlich adsorption isotherm with ln k = 2.77, 1/n = 0.22 and R 2 = 0.94. Bivalent metal ions showed a concentrationdependent competitive effect on cobalt biosorption, decreasing in the order: Cu > Ni > Ca > Mg. Monovalent ions, such as K + and Na + , showed only very weak competitive effect. Up to 98% of Co taken up by lichen can be removed by washing with 0.1 M NiCl2 at 20• C. This means that only a small fraction of the cobalt is localized intracellularly. These results can be used for elucidating the behaviour of lichens as bioindicators of cobalt pollution in water systems, including the risk of cobalt leakage from lichen probes under the influence of rain, snow and atmospheric humidity.

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Ľuboš Vrtoch

Cerium dioxide as a new reactive sorbent for fast degradation of parathion methyl and some other organophosphates

Cerium oxide for the destruction of chemical warfare agents: A comparison of synthetic routes

Recovery of Cerium Dioxide from Spent Glass-Polishing Slurry and Its Utilization as a Reactive Sorbent for Fast Degradation of Toxic Organophosphates

Sorption of cesium from water solutions on potassium nickel hexacyanoferrate-modified Agaricus bisporus mushroom biomass

Biosorption of Co2+ ions by lichen Hypogymnia physodes from aqueous solutions

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