Recovery of precious metals (PMs: Au and Pt) from waste resources is of high importance due to the environmental concern and imbalance in the supply-demand ratio. A new approach has been explored for the recovery of PM using earlier developed bio-adsorbent, dithiocarbamate-modified cellulose (DMC). The adsorbent exhibits excellent adsorption efficiency (~99%) over a wide range of pH (< 1-6) and high selectivity towards Au and Pt extraction from acidic solutions ([H]: ≥ 0.2 mol L). The adsorption capacity (mmol g; Au: 5.07, Pt: 2.41) and rate to reach equilibrium (≤ 30 min) were significantly higher than most of the reported bio-adsorbents. The Au or Pt, after captured in DMC, was subsequently recovered as Au and Pt (yield > 99%) via incineration. The protocol was verified using real waste samples containing Au and Pt in a mixed matrix of base metal ions, and a quantitative (~100%) and selective extraction of Au and Pt were observed. The proposed technique is more effective and straightforward than the typical adsorption-desorption-reduction based method, because of the advantages like no-use of toxic eluents, and no-addition of any reductants to collect the PMs in elemental form.
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http://dx.doi.org/10.1016/j.jhazmat.2020.124569 | DOI Listing |
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