Abstract Two materials as the functionalization products of magnesium aluminum hydrotalcite (Mg/Al HT) with gallic and salicylic acids have been prepared and their application to effectively remove AuCl4− has been examined. Functionalization was carried out through immobilization in which deprotonated carboxyl group of gallic and salicylic acids was the responsible functional group for the immobilization. Immobilization of both acids was optimum at pH 5.0 and matched better in Langmuir isotherm model than the Freundlich one with capacity of immobilization was 7.22 and 7.18 × 10−4 mol/g for galic and salicylic acids, respectively. In spite of both acids were immobilized at comparable amount, but gallic-acid-functionalized Mg/Al HT (Mg/Al-GA HT) had higher ability in removing AuCl4− than the salicylic-acid-functionalized Mg/Al HT (Mg/Al-SA HT). The removal capacity of Mg/Al-GA HT and Mg/Al-SA HT for AuCl4− at temperature 25 °C was 3.10 and 2.08 × 10−4 mol/g and it was 8.16 and 5.47 time-fold higher than that of Mg/Al HT. The removal of AuCl4− by Mg/Al-GA HT and Mg/Al-SA HT was exothermic and involved OH group and this functional group was responsible for not only the adsorption of AuCl4− but also reduction of AuCl4− to Au metal.

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