Enhanced Nitrite Electrovalorization to Ammonia by a NiFe Layered Double Hydroxide
Wanying Wang, Edmund C. M. Tse
Abstract
Abstract The development of non‐precious metal (NPM) electrocatalysts for efficient nitrite‐to‐ammonia upcycling is key to enabling a sustainable society. Here, an earth‐abundant NiFe layered double hydroxide (LDH) is prepared to electrochemically reduce nitrite with a Faradaic efficiency as high as 85 %, an ammonia selectivity reaching 98 %, and an ammonia yield rate up to 351 μmol h −1 mg cat −1 , rivaling the performance metrics of state‐of‐the‐art NPM catalysts. NiFe LDH further displays excellent stability after 10 consecutive electrolysis runs with its nanostructure unperturbed. By conducting electroreduction of nitrite in a range of solutions, the electrolyte identity is found to play an important role in dictating the overall nitrite removal activity. Through a comparative study with MgFe and NiAl inorganic solids, Ni and Fe are demonstrated to boost nitrite valorization rate as well as ammonia selectivity and yield in a synergistic manner. Taken together, these low‐cost catalysts provide a promising strategy for one‐step conversion of nitrite into ammonia exclusively with implications in next‐generation wastewater treatment and green industrial commodity production.