2D, Metal-Free Electrocatalysts for the Nitrogen Reduction Reaction

Environmentally friendly ammonia production is important for addressing the carbon emissions and substantial energy consumption that are currently associated with the chemical industry. In recent decades, many achievements are made in this area; however, low production yield, poor selectivity, and unsatisfactory Faradaic efficiency hinder large-scale applications. 2D, metal-free electrocatalysts stand out from other candidates because of their physical, electronic, and chemical properties. In this work, recent developments of 2D-based electrochemical materials for converting dinitrogen into ammonia in ambient conditions are systematically reviewed. First, recent unique progress and challenges on novel 2D electrocatalysts for the nitrogen reduction reaction are summarized. Then, various synthetic strategies for electrochemical materials and the influence of these methods have on the intrinsic material performance are highlighted. Last, by comparing current engineering strategies, electrochemical tests, and computational calculations, the opportunities, critical issues, and scientific challenges for 2D nanomaterials as stable, efficient catalysts, are analyzed. On the basis of this comparison, technology solutions are provided and rational principles for future work are proposed.

Automated summary

Environmentally friendly ammonia production is crucial for addressing the carbon emissions and energy consumption issues in the chemical industry. Recent developments in 2D electrocatalysts have shown potential in converting dinitrogen into ammonia under ambient conditions. This review systematically summarizes the progress, challenges, and opportunities of 2D-based electrochemical materials in achieving efficient and stable catalysis for nitrogen reduction.