Metal-Organic Framework Materials for Production and Distribution of Ammonia

The efficient production of ammonia (NH3) from dinitrogen (N-2) and water (H2O) using renewable energy is an important step on the roadmap to the ammonia economy. The productivity of this conversion hinges on the design and development of new active catalysts. In the wide scope of materials that have been examined as catalysts for the photo- and electrodriven reduction of N-2 to NH3, functional metal-organic framework (MOF) catalysts exhibit unique properties and appealing features. By elucidating their structural and spectroscopic properties and linking this to the observed activity of MOF-based catalysts, valuable information can be gathered to inspire new generations of advanced catalysts to produce green NH3. NH3 is also a surrogate for the hydrogen (H-2) economy, and the potential application of MOFs for the practical and effective capture, safe storage, and transport of NH3 is also discussed. This Perspective analyzes the contribution that MOFs can make toward the ammonia economy.

Automated summary

The development of new active catalysts is crucial for the efficient production of ammonia (NH3) through the conversion of dinitrogen (N-2) and water (H2O) using renewable energy. Metal-organic framework (MOF) catalysts exhibit unique properties and have been extensively studied for the reduction of N-2 to NH3. Understanding their structural and spectroscopic properties and their relationship with catalytic activity provides valuable insights for the design of advanced catalysts. Additionally, MOFs have potential applications in the capture, storage, and transport of NH3, further contributing to the ammonia economy.