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W2029880442 abstract "Abstract BACKGROUND: Solvent extraction and ion exchange technologies have been widely used for the recovery or removal of heavy metals from aqueous phases. However, different problems have been encountered on applying these techniques. Although the extractants are highly selective, this technique requires a high level of mechanical agitation to improve the kinetics of the process, a requirement that promotes leakage of the extractant from the aqueous/organic interface to the aqueous phase during separation of the two phases. On the other hand, ion exchangers can easily be regenerated but gel form resins have low selectivity and those with high selectivity (chelating resins) have low diffusion coefficients, a characteristic that leads to low mass transfer rates. An interesting alternative to overcome these limitations is the microencapsulation of extractants within a functionalized polymeric shell. This new type of material would be expected to combine the advantages of the aforementioned methods and improve selective removal of heavy metals from an aqueous phase. RESULTS: Sulfonation of microcapsules indicated that the use of an ethylene glycol dimethacrylate (EGDMA) copolymer enhances the chemical and mechanical properties of the microcapsules. It was found that the recipe used to produce microencapsulated phase change materials (PCM) was also useful to prepare microcapsules with di(2‐ethylhexyl)phosphoric acid (DEHPA) as a core material. The synthesized material had a spherical and smooth shape and a DEHPA content of 28.15 wt%. Finally, the ion exchange capacity of the sulfonated material containing DEHPA (3.02 meq g −1 ) was higher than that obtained without this additive (2.54 meq g −1 ). High selectivity for copper uptake was also achieved. CONCLUSIONS: Microcapsules containing extractants can be manufactured by the same approach used to produce microcapsules containing PCMs. In addition, particles with improved chemical and mechanical resistance to sulfonation can be synthesized using EGDMA as a crosslinker. Ion exchange studies showed that the presence of DEHPA enhances the ion exchange capacity and selectivity of the microcapsules. Thus this material is a promising alternative for the separation of heavy metal ions. Copyright © 2010 Society of Chemical Industry" @default.
W2029880442 created "2016-06-24" @default.
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W2029880442 date "2010-11-08" @default.
W2029880442 modified "2023-10-10" @default.
W2029880442 title "Functionalization of microcapsules for the removal of heavy metal ions" @default.
W2029880442 cites W1480940885 @default.
W2029880442 cites W157536789 @default.
W2029880442 cites W1964103964 @default.
W2029880442 cites W1964462435 @default.
W2029880442 cites W1965145244 @default.
W2029880442 cites W1969665780 @default.
W2029880442 cites W1973523964 @default.
W2029880442 cites W1974145828 @default.
W2029880442 cites W1977765684 @default.
W2029880442 cites W1978750907 @default.
W2029880442 cites W1978924993 @default.
W2029880442 cites W1986154487 @default.
W2029880442 cites W1988019176 @default.
W2029880442 cites W1992411015 @default.
W2029880442 cites W1997527325 @default.
W2029880442 cites W2002467884 @default.
W2029880442 cites W2005240416 @default.
W2029880442 cites W2011106572 @default.
W2029880442 cites W2011549293 @default.
W2029880442 cites W2017902763 @default.
W2029880442 cites W2019179245 @default.
W2029880442 cites W2024688863 @default.
W2029880442 cites W2027250890 @default.
W2029880442 cites W2027713054 @default.
W2029880442 cites W2029239390 @default.
W2029880442 cites W2031710053 @default.
W2029880442 cites W2031907081 @default.
W2029880442 cites W2033360062 @default.
W2029880442 cites W2034015566 @default.
W2029880442 cites W2036521038 @default.
W2029880442 cites W2036721229 @default.
W2029880442 cites W2037105462 @default.
W2029880442 cites W2041948030 @default.
W2029880442 cites W2042983961 @default.
W2029880442 cites W2043217877 @default.
W2029880442 cites W2044027136 @default.
W2029880442 cites W2045878718 @default.
W2029880442 cites W2049077338 @default.
W2029880442 cites W2049835938 @default.
W2029880442 cites W2049928801 @default.
W2029880442 cites W2053693896 @default.
W2029880442 cites W2054662157 @default.
W2029880442 cites W2054704852 @default.
W2029880442 cites W2059668830 @default.
W2029880442 cites W2060617048 @default.
W2029880442 cites W2061454368 @default.
W2029880442 cites W2063172364 @default.
W2029880442 cites W2063282087 @default.
W2029880442 cites W2075780104 @default.
W2029880442 cites W2078452202 @default.
W2029880442 cites W2085009760 @default.
W2029880442 cites W2086746399 @default.
W2029880442 cites W2086992496 @default.
W2029880442 cites W2089031499 @default.
W2029880442 cites W2095048348 @default.
W2029880442 cites W2097551058 @default.
W2029880442 cites W2101400550 @default.
W2029880442 cites W2105655666 @default.
W2029880442 cites W2110065058 @default.
W2029880442 cites W2116613012 @default.
W2029880442 cites W2128657747 @default.
W2029880442 cites W2157030687 @default.
W2029880442 cites W2167482071 @default.
W2029880442 cites W3171310648 @default.
W2029880442 doi "https://doi.org/10.1002/jctb.2535" @default.
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