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W2332631209 abstract "To overcome the limits of graphene oxide (GO) as a novel sorbent for heavy metal removal (e.g., low sorption selectivity and difficulty in solid-liquid separation), a nanocomposite ([email protected]) with excellent settling ability (<2 min) was fabricated through in situ growing nanosized hydrated manganese oxide (HMO) (10.8 ± 4.1 nm) on GO. As a graphene-based adsorbent, [email protected] exhibited fast sorption kinetics (<20 min). Meanwhile, the introduced HMO endowed [email protected] with outstanding sorption selectivity and capacity toward Pb(II) (>500 mg g−1) in the presence of high-level competing Ca(II). Cyclic sorption batches showed that 1 kg [email protected] can treat at least 22 m3 Pb(II)-laden synthetic industrial drainage (5 mg L−1 Pb(II)) and 40 m3 drinking water (0.5 mg L−1 Pb(II)) to their corresponding limits (0.1 mg L−1 for wastewater and 10 μg L−1 for drinking water) enforced in China. Additionally, the exhausted [email protected] can be effectively regenerated using 0.3 M HCl for repeated uses. The eminent performance of [email protected] was attributed to its specific structure, that is, the abundant oxygen-containing groups on GO mediated the growth of highly dispersed HMO that preferably sequestrated Pb(II) through specific interaction, and the host GO offered the preconcentration of Pb(II) for enhanced sequestration through the Donnan membrane effect." @default.
W2332631209 created "2016-06-24" @default.
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W2332631209 date "2016-08-01" @default.
W2332631209 modified "2023-09-30" @default.
W2332631209 title "Rapid and highly selective removal of lead from water using graphene oxide-hydrated manganese oxide nanocomposites" @default.
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W2332631209 doi "https://doi.org/10.1016/j.jhazmat.2016.04.014" @default.
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