Abstract

The recovery of noble metal ions from wastewater without energy consumption is of utmost importance. Herein, a methanol-Ag+ coupled redox fuel cell (CRFC) was developed to realize silver removal and electricity generation simultaneously. In this system with alkaline methanol as fuel on the anode, Ag+ in catholyte was reduced. The highest open circuit voltage of 1.28 V and maximum power density of 17.4 W·m−2 were achieved at 0.1 mol·L−1 Ag+ (pH=1.1). More than 90% Ag+ can be removed in 6 h, and over 60% of cathodic efficiency was achieved simultaneously when using Ag+ as electron acceptors. Morphology analysis showed that dendritic Ag particles were loosely deposited on the cathode after 2 h operation. The size of the silver dendrites increased with Ag+ concentration increase. Eventually, a fed-batch mode was conducted to confirm that either the Ag+ is efficiently reduced or the energy in chemicals has been sustainably retrieved in electricity.

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