[Figure 2] (IMAGE)
Caption
Au recovery performance of the ALPF. (a) Effect of pH in Au solution on the Au recovery performance of the ALPF. Ci, t, and adsorbent doses were 100 mg/L, 24 h, and 0.5 g/L, respectively. FESEM images of the ALPF surface after Au recovery at pH of (b) 3, (c) 6, (d) 9, and (e) 12, showing the Au(0) particles on the ALPF surface. Scale bar is 1 μm. (f) XRD patterns of the ALPF after Au recovery in the pH range of 2-12. (g-l) FESEM images of the ALPF after Au recovery at Ci of (g) 0.1, (h) 1, (i) 10, (j) 100, (k) 500, and (l) 1000 mg/L for 24 h with stirring at 200 rpm. pH was adjusted to 1. Scale bar is 20 μm. (m-q) FESEM-EDS mapping of the chemical elements distributions for the ALPF after Au recovery at Ci of 1000 mg/L: (m) overlap, (n) carbon, (o) nitrogen, (p) oxygen, and (q) gold. Scale bar is 20 μm. (r) Recovery efficiencies of the ALPF for Au recovery in a low Ci range of 0.1-100 mg/L. (s) Adsorption isotherm test result of the ALPF adsorbent. The experimentally obtained data were fitted by three representative isotherm equations of Langmuir, Freundlich, and Sips models. (t) Comparison of qm and optimum pH value for the ALPF adsorbent with those of the adsorbents best reported in the literature, classified by the adsorbent size (nano, micro, and milliscale) or shape (particle and fiber)
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Korea Institute of Science and Technology
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