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Simultaneous and Efficient Capture of Inorganic Nitrogen and Heavy Metals by Polyporous Layered Double Hydroxide and Biochar Composite for Agricultural Non-Point Pollution Control.
ACS Applied Materials & Interfaces 2018 November 16
Agricultural non-point pollution has been recognized as the main source of aquatic contaminants worldwide, such as inorganic nitrogen (ION) and heavy metals (HMs). It is an important challenge to simultaneously and efficiently immobilize soil ION and HMs in farmland. Herein, we present a polyporous Mg/Fe-layered double hydroxide and biochar composite (Mg/Fe-LDH@biochar) with the efficient co-adsorption capacity of ION and HMs for the mitigation of agricultural non-point pollution toward aquatic systems. The Mg/Fe-LDH@biochar showed strong adsorption toward ION (i.e., NH4+N and NO3-N) and HMs (i.e., Cu, Zn, Ni, Pb, and Cd), with maximum capacity of 98.53 mg NH4+N/g, 27.09 mg NO3-N/g, 295.80 mg Cu/g, 141.70 mg Zn/g, 75.59 mg Ni/g, 1264.10 mg Pb/g, and 126.30 mg Cd/g respectively. More attractively, by deionized water extraction, the adsorbed ION on the composite was more easily re-released with desorption percentage of about 42.336.87% NO3-N and 1.420.78% NH4+N than that of HMs (<1.0%). This difference is primarily related with the strength of bonding forces of ION and HMs when adsorbed on Mg/Fe-LDH@biochar, in the sequence of NO3--N (Van der Waals force and electrostatic attraction) < NH4+-N (hydrogen bonding) < HMs (ionic/coordinate bonding). Finally, to examine the performance of Mg/Fe-LDH@biochar for practical applications in farmland, column leaching experiments were succesfully conducted by stimulated rainfall events. The addition of Mg/Fe-LDH@biochar into soils could greatly reduce the leaching of ION and HMs simultaneously, with reduction ratios of >60%, >40%, and >90% for NH4+-N, NO3--N, and HMs respectively at 3.0% addition. Moreover, there was no leaching risk of Fe ions into the waterbody from Mg/Fe-LDH@biochar amended soils.
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