Selective Adsorption of Au(Ⅲ) by Activated Carbon Supported Polythioamides and Adsorption Mechanism

Abstract

By using in-situ synthesis of polythioamide (PTA) on activated carbon (AC), a polythioamide-modified activated carbon-based adsorbent (AC-PTA) was successfully prepared and used to study the selective adsorption effect and mechanism of Au(Ⅲ) in wastewater. The results showed that AC-PTA exhibited excellent selective adsorption to Au(Ⅲ) in the coexisting solution of multiple metal ions in a wide pH range (<5.0). The adsorption effect for Au(Ⅲ) was the best at a pH of 2 and 3; the concentration of residue Au(Ⅲ) was less than 0.1 mg·L-1, whereas other metals were barely adsorbed. The selective adsorption process for Au(Ⅲ) conformed to the pseudo-second kinetic model (R2=0.9853), the thermodynamic process conformed to the Langmuir isotherm process (R2=0.9936), and adsorption capacity was up to 2018 mg·g-1. Such advantages were mainly attributed to the coordination interaction between the -C([FY=,1]S)NH- functional groups on the AC-PTA surface and Au(Ⅲ), the electrostatic adsorption between the positive AC-PTA and negative Au(Ⅲ) complex anions, and the direct reduction of Au(Ⅲ) by AC. The successful recovery of gold was finally realized by burning the adsorbed AC-PTA at 1000℃ for 4 hours under air conditions, and solid gold with a mass fraction higher than 90.0% was obtained. This study provided the possibility for selective adsorption and recovery of low concentration Au(Ⅲ) from actual wastewater.