Researchers review critical factors limiting electrocatalytic performance

The direct electrocatalytic production of ammonia (NH₃) from N₂ and H₂O at ambient conditions is one of today's chemical challenges to meet the growing industrial demand for ammonia. Despite numerous studies on designing novel catalysts to activate the N₂ molecule and elucidating the reaction mechanism, many critical factors (such as gas diffusion and charge transfer limitations that instead promote the side reaction of hydrogen evolution) remain unsolved, suggesting that a breakthrough is needed to improve performance in this challenging reaction.

A team from the University of Messina have reviewed recent studies that propose advanced solutions, focusing on: (i) the adoption of a three-dimensional nanoarchitecture of the electrode surface (to favor multi-electron transfer), (ii) the design of cell configuration (including the development of gas diffusion electrodes—GDEs), (iii) the critical aspects of the more efficient lithium-mediated approach in non-aqueous solvents (flooding of the GDE, sustainability of the proton-shuttle system), (iv) new methods for ammonia detection avoiding false positive.

Their review is published in the journal Current Opinion in Green and Sustainable Chemistry.

More information:
Francesco Tavella et al, Nitrogen reduction reaction to ammonia at ambient conditions: A short review analysis of the critical factors limiting electrocatalytic performance, Current Opinion in Green and Sustainable Chemistry (2022). DOI: 10.1016/j.cogsc.2022.100604

Provided by European Research Institute of Catalysis