Ammonium molybdate phosphate functionalized silicon dioxide impregnated in calcium alginate for highly efficient removal of 137Cs from aquatic bodiesElectronic supplementary information (ESI) available. See DOI: 10.1039/c6ra20283g

In this study, silica functionalized with ammonium molybdate phosphate (AMP) impregnated in calcium alginate (SiO 2 -AMP-Cal-Alg) was developed for the highly efficient removal of radioactive cesium from aquatic media. During the synthesis, a compact protective interlayer of silica was deliberately...

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Singhal, R. K
Basu, H
Pimple, M. V
description In this study, silica functionalized with ammonium molybdate phosphate (AMP) impregnated in calcium alginate (SiO 2 -AMP-Cal-Alg) was developed for the highly efficient removal of radioactive cesium from aquatic media. During the synthesis, a compact protective interlayer of silica was deliberately constructed to stabilize the AMP. The optimum composition of the SiO 2 -AMP-Cal-Alg beads was evaluated as 6% AMP modified SiO 2 loaded into 4% calcium alginate. Because of high ion exchange capacity of the AMP functional layer, the SiO 2 -AMP-Cal-Alg has high removal efficiency (>91%) of radioactive cesium from 137 Cs spiked solutions (3000-35 000 Bq L −1 ) and contaminated seawater. Batch experiments revealed that adsorption equilibrium was rapidly achieved within 30 min and the maximum sorption capacity was up to 37.52 mg g −1 . Kinetic models and adsorption isotherm equations (Langmuir/Freundlich) were used to fit the experiment data for describing the sorption process. These SiO 2 -AMP-Cal-Alg beads are proposed to hold great promise for the clean-up of radiocesium contaminated water around nuclear facilities after nuclear accidents. Development of new hybrid material (SiO 2 -AMP-Ca-Alg beads) for cesium uptake without disturbing the water quality parameters.
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title Ammonium molybdate phosphate functionalized silicon dioxide impregnated in calcium alginate for highly efficient removal of 137Cs from aquatic bodiesElectronic supplementary information (ESI) available. See DOI: 10.1039/c6ra20283g
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