Development and Recent Progress on Ammonia Synthesis Catalysts for Haber-Bosch Process

Due to its essential use as a fertilizer, ammonia synthesis from nitrogen and hydrogen is considered to be one of the most important chemical processes of the last 100years. Since then, an enormous amount of work has been undertaken to investigate and develop effective catalysts for this process. Although the catalytic synthesis of ammonia has been extensively studied in the last century, many new catalysts are still currently being developed to reduce the operating temperature and pressure of the process and to improve the conversion of reactants to ammonia. New catalysts for the Haber-Bosch process are the key to achieving green ammonia production in the foreseeable future. Herein, the history of ammonia synthesis catalyst development is briefly described as well as recent progress in catalyst development with the aim of building an overview of the current state of ammonia synthesis catalysts for the Haber-Bosch process. The new emerging ammonia synthesis catalysts, including electride, hydride, amide, perovskite oxide hydride/oxynitride hydride, nitride, and oxide promoted metals such as Fe, Co, and Ni, are promising alternatives to the conventional fused-Fe and promoted-Ru catalysts for existing ammonia synthesis plants and future distributed green ammonia synthesis based on the Haber-Bosch process.

Automated summary

Ammonia synthesis from nitrogen and hydrogen is a crucial chemical process with the development of efficient catalysts being a key focus. New catalysts are being developed to improve efficiency and sustainability in ammonia production. The continued innovation in catalysts for the Haber-Bosch process is essential for the future of green ammonia production.