Journal
RSC ADVANCES
Volume 5, Issue 58, Pages 46430-46436Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c5ra04348d
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Funding
- EU-ITN network Mag(net)icFun [PITN-GA-2012-290248]
- Hanns-Seidel-Stiftung
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A facile and efficient way to decontaminate mercury(II) polluted water with the aid of magnetic, highly stable and recyclable carbon coated cobalt (Co/C) nanoparticles is reported. Comparing non-functionalised Co/C nanomagnets with particles that were functionalised with amino moieties, the latter one proved to be more effective for scavenging mercury with respect to extraction capacity and recyclability. A novel nanoparticle-poly(ethyleneimine) hybrid (Co/C-PEI) prepared by direct ring opening polymerization of aziridine initiated by an amine functionalised nanoparticle surface led to a high capacity material (10 mmol amino groups per g nanomaterial) and thus proved to be the best material for scavenging toxic mercury at relevant concentrations (mg L-1/mu g L-1) for at least 6 consecutive cycles. On a large-scale, 20 L of drinking water with an initial Hg2+ concentration of 30 mg L-1 can be decontaminated to the level acceptable for drinking water (<= 2 mg L-1) with just 60 mg of Co/C-PEI particles.
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