Online monitoring of nitrate based on cathodic electroactive biofilm

Online nitrate monitoring is a critical step for the stable operation of sewage treatment plants. Microbial electrochemical sensor based on electroactive biofilms (EAB) is a new type of online water quality monitoring technology. Modifications in the concentrations of organic matter and the existence of readily oxidizable substances in the bioanode sensor can directly impact nitrate monitoring, leading to a reduction in sensitivity. This study developed a rapid online monitoring technique for nitrate by rapidly forming a cathodic EAB through electrode polarity reversal. This resulted in a maximum current density of −3 A m⁻² for the biocathode. Nitrate functions as an electron acceptor, with biocathode-attached microorganisms either directly or indirectly acquiring electrons from the biocathode surface to reduce nitrate for metabolic sustenance. Notably, within the concentration range of 0.5 to 15 mg L⁻¹, cathodic EAB exhibited a significant current response to nitrate within 20 min, showing a strong linear correlation with a coefficient of determination (R²) of 0.9754. The immunity to interference was systematically verified through one-factor effects tests and mixed interference experiments. The linear correlation between peak current density and nitrate concentration remained stable (R² > 0.97) even in the presence of both chemical oxygen demand (COD) and ammonium nitrogen (NH₄⁺-N). The capacity of the microbial sensor monitoring system to swiftly, precisely and reliably discern nitrate concentrations exemplifies the system's efficacy in nitrate monitoring.