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W2891415949 startingPage "82" @default.
W2891415949 abstract "Novel nanoadsorbents based on core-shell bimagnetic nanoparticles (CoFe2O4@ɣ-Fe2O3) with two different mean sizes were elaborated, characterized and applied as potential sorbents for Cr(VI) removal from aqueous solutions through magnetically assisted chemical separation. The nanoadsorbents were characterized by XRD, TEM, FTIR, XPS, potentiometric-conductometric titrations, BET and vibrating sample magnetometry. The influence of contact time, shaking rate, pH, pollutant concentration, temperature and competing ions on Cr(VI) adsorption were evaluated. The results were analyzed in the framework of Langmuir and Freundlich models to evaluate the maximum adsorption capacity and the extent of affinity. The nanoadsorbents showed a good selectivity for Cr(VI) adsorption and were more effective at pH = 2.5, with a shaking rate of 400 RPM. The adsorption process was spontaneous, endothermic and presented an increased randomness. The contact time required to reach the equilibrium was relatively short and the kinetic date followed the pseudo-second-order model. The maximum adsorption capacity was nearly 40% higher for the nanoadsorbent of smaller mean size due to its higher surface area. Regeneration studies revealed that the nanoadsorbents can be recovered for reuse. These results indicate that prepared nanoadsorbents can be used as a powerful tool for Cr(VI) removal from contaminated water." @default.
W2891415949 created "2018-09-27" @default.
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W2891415949 date "2019-01-01" @default.
W2891415949 modified "2023-09-27" @default.
W2891415949 title "Core-Shell Bimagnetic Nanoadsorbents for Hexavalent Chromium Removal from Aqueous Solutions" @default.
W2891415949 cites W1920901248 @default.
W2891415949 cites W1969146984 @default.
W2891415949 cites W1969195168 @default.
W2891415949 cites W1974299850 @default.
W2891415949 cites W1976191443 @default.
W2891415949 cites W1976642731 @default.
W2891415949 cites W1977703492 @default.
W2891415949 cites W1980778112 @default.
W2891415949 cites W1985364100 @default.
W2891415949 cites W1987929564 @default.
W2891415949 cites W1990615852 @default.
W2891415949 cites W1991247663 @default.
W2891415949 cites W1999527696 @default.
W2891415949 cites W2005641503 @default.
W2891415949 cites W2007749905 @default.
W2891415949 cites W2007780649 @default.
W2891415949 cites W2009701708 @default.
W2891415949 cites W2015661059 @default.
W2891415949 cites W2017587097 @default.
W2891415949 cites W2018614585 @default.
W2891415949 cites W2019445272 @default.
W2891415949 cites W2019603031 @default.
W2891415949 cites W2020181012 @default.
W2891415949 cites W2021571224 @default.
W2891415949 cites W2022173968 @default.
W2891415949 cites W2022778259 @default.
W2891415949 cites W2025178967 @default.
W2891415949 cites W2025627981 @default.
W2891415949 cites W2026330088 @default.
W2891415949 cites W2028877188 @default.
W2891415949 cites W2030195230 @default.
W2891415949 cites W2030459659 @default.
W2891415949 cites W2031313224 @default.
W2891415949 cites W2033527963 @default.
W2891415949 cites W2034782834 @default.
W2891415949 cites W2047122994 @default.
W2891415949 cites W2052373233 @default.
W2891415949 cites W2053279432 @default.
W2891415949 cites W2058764009 @default.
W2891415949 cites W2059246379 @default.
W2891415949 cites W2059777880 @default.
W2891415949 cites W2060754728 @default.
W2891415949 cites W2069417838 @default.
W2891415949 cites W2074417295 @default.
W2891415949 cites W2078146748 @default.
W2891415949 cites W2081130717 @default.
W2891415949 cites W2085809143 @default.
W2891415949 cites W2089457092 @default.
W2891415949 cites W2090809106 @default.
W2891415949 cites W2094052762 @default.
W2891415949 cites W2096625313 @default.
W2891415949 cites W2098547240 @default.
W2891415949 cites W2101605491 @default.
W2891415949 cites W2126579209 @default.
W2891415949 cites W2146860440 @default.
W2891415949 cites W2166513536 @default.
W2891415949 cites W2173409788 @default.
W2891415949 cites W2221205060 @default.
W2891415949 cites W2290037907 @default.
W2891415949 cites W2296824841 @default.
W2891415949 cites W2313657953 @default.
W2891415949 cites W2314104404 @default.
W2891415949 cites W2324418797 @default.
W2891415949 cites W2328692073 @default.
W2891415949 cites W2334067383 @default.
W2891415949 cites W2342095568 @default.
W2891415949 cites W2346994484 @default.
W2891415949 cites W2473828397 @default.
W2891415949 cites W2580930337 @default.
W2891415949 cites W2583167533 @default.
W2891415949 cites W2598626036 @default.
W2891415949 cites W2599249655 @default.
W2891415949 cites W2763614424 @default.
W2891415949 cites W2784889084 @default.
W2891415949 cites W4321429255 @default.
W2891415949 doi "https://doi.org/10.1016/j.jhazmat.2018.09.008" @default.
W2891415949 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30236945" @default.
W2891415949 hasPublicationYear "2019" @default.
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