A flow system for hydrogen peroxide production at reticulated vitreous carbon via electroreduction of oxygen

In this work, a reticulated vitreous carbon electrode (RVCE, 96.5 % porosity, 24 cm^?1) was modified with 2-anthraquinonyl groups to electrocatalytically reduce dissolved oxygen in neutral aqueous solution (0.1 M phosphate buffer solution supported with 3 M potassium chloride, pH of 6.7) to hydrogen peroxide (H₂O₂) at 25 °C under atmospheric pressure. The obtained current density was ca. 3 mA cm^?2. For the first time, the oxygen reduction was investigated on a novelly designed RVCE housed in a gravity-feed flow system. Fractional current conversions obtained on the RVC flow cell were compared and contrasted with those on a two-dimensional electrode, viz. a tubular flow electrode. The modified-on catalyst has the benefit in terms of easy separation of the product from the catalyst. The in situ generated low concentration of H₂O₂ provides potential applications to water purification processes and disinfection for water and food.