Nitrogen-based fertilizer recovery from nitrate wastewater: A novel electrocatalyst for ammonia synthesis and a new strategy for ammonia absorption

Electrochemically upcycling wastewater nitrogen, such as nitrate (NO3--N), into a nitrogen fertilizer (e.g., (NH4)2SO4), holds promise for wastewater treatment and resource recovery. However, two challenges remain: finding an efficient catalyst for electrocatalytic NO3--N reduction into NH3 (NO3RR) and developing a suitable strategy for subsequent NH3 separation and recovery. In this study, a high-entropy perovskite oxide, La(MnFeCoCuZn)0.2O3 (LMFCCZ), was synthesized and applied for NO3RR, illustrating excellent performance with an NH3 yield rate of 1.5 +/- 0.04 mg/(cm2 & sdot;h) and a FE of 95.0 +/- 1.53 % at a potential of -1.1 V vs. RHE. Furthermore, a novel strategy of using acidic anolyte instead of external acid to provide H+ ions for NH3 separation and recovery was introduced. As a result, paired electrolysis was fully employed to recover nitrogenbased fertilizer from NO3--N without any chemicals addition. Specifically, when acidic anolyte containing 50 mM K2SO4 was served as the absorption liquid, the NH3 recovery efficiency reached 70.9 +/- 3.0 %, and a solid powder containing both nitrogen (N) and potassium (K) was obtained, suggesting the formation of N-K compound fertilizer. This study not only extends the application of high-entropy perovskite oxides in NO3RR but also opens a novel avenue for utilization of anodic reactions for nitrogen-based fertilizer recovery.