Boosting Ammonium Oxidation in Wastewater by the BiOCl-Functionalized Anode

Mixed metal oxide (MMO) anodes are commonly used for electrochlorination of ammonium (NH4+) in wastewater treatment, but they suffer from low efficiency due to inadequate chlorine generation at low Cl- concentrations and sluggish reaction kinetics between free chlorine and NH4+ under acidic pH conditions. To address this challenge, we develop a straightforward wet chemistry approach to synthesize BiOCl-functionalized MMO electrodes using the MMO as an efficient Ohmic contact for electron transfer. Our study demonstrates that the BiOCl@MMO anode outperforms the pristine MMO anode, exhibiting higher free chlorine generation (24.6-60.0 mg Cl-2 L-1), increased Faradaic efficiency (75.5 vs 31.0%), and improved rate constant of NH4+ oxidation (2.41 vs 0.76 mg L-1 min(-1)) at 50 mM Cl- concentration. Characterization techniques including electron paramagnetic resonance and in situ transient absorption spectra confirm the production of chlorine radicals (Cl-center dot and Cl-2(center dot-)) by the BiOCl/MMO anode. Laser flash photolysis reveals significantly higher apparent second-order rate constants ((4.3-4.9) x 10(6) M-1 s(-1) at pH 2.0-4.0) for the reaction between NH4+ and Cl-center dot, compared to the undetectable reaction between NH4+ and Cl-2(center dot-), as well as the slower reaction between NH4+ and free chlorine (10(2) M-1 s(-1) at pH < 4.0) within the same pH range, emphasizing the significance of Cl-center dot in enhancing NH4+ oxidation. Mechanistic studies provide compelling evidence of the capacity of BiOCl for Cl- adsorption, facilitating chlorine evolution and Cl-center dot generation. Importantly, the BiOCl@MMO anode exhibits excellent long-term stability and high catalytic activity for NH4+-N removal in a real landfill leachate. These findings offer valuable insights into the rational design of electrodes to improve electrocatalytic NH4+ abatement, which holds great promise for wastewater treatment applications.

Automated summary

This study develops a wet chemistry approach to synthesize BiOCl-functionalized MMO electrodes for electrochlorination of ammonium in wastewater treatment. The BiOCl@MMO anode exhibits higher chlorine generation, Faradaic efficiency, and NH4+ oxidation rate compared to the pristine MMO anode.