REFERENCES

1. Brown, T. What drives new investments in low-carbon ammonia production? One million tons per day demand. 2018. Available from: https://ammoniaenergy.org/articles/what-drives-new-investments-in-low-carbon-ammonia-production-one-million-tons-per-day-demand/. [Last accessed on 2 Dec 2024].

2. Erisman, J. W.; Sutton, M. A.; Galloway, J.; Klimont, Z.; Winiwarter, W. How a century of ammonia synthesis changed the world. Nature. Geosci. 2008, 1, 636-9.

3. Fu, X.; Pedersen, J. B.; Zhou, Y.; et al. Continuous-flow electrosynthesis of ammonia by nitrogen reduction and hydrogen oxidation. Science 2023, 379, 707-12.

4. Cao, N.; Zhang, N.; Wang, K.; Yan, K.; Xie, P. High-throughput screening of B/N-doped graphene supported single-atom catalysts for nitrogen reduction reaction. Chem. Synth. 2023, 3, 23.

5. Li, K.; Andersen, S. Z.; Statt, M. J.; et al. Enhancement of lithium-mediated ammonia synthesis by addition of oxygen. Science 2021, 374, 1593-7.

6. Krishnamurthy, D.; Lazouski, N.; Gala, M. L.; Manthiram, K.; Viswanathan, V. Closed-loop electrolyte design for lithium-mediated ammonia synthesis. ACS. Cent. Sci. 2021, 7, 2073-82.

7. Suryanto, B. H. R.; Matuszek, K.; Choi, J.; et al. Nitrogen reduction to ammonia at high efficiency and rates based on a phosphonium proton shuttle. Science 2021, 372, 1187-91.

8. Fu, X.; Xu, A.; Pedersen, J. B.; et al. Phenol as proton shuttle and buffer for lithium-mediated ammonia electrosynthesis. Nat. Commun. 2024, 15, 2417.

9. Li, S.; Fu, X.; Nørskov, J. K.; Chorkendorff, I. Towards sustainable metal-mediated ammonia electrosynthesis. Nat. Energy. 2024, 9, 1344-9.

10. Li, S.; Zhou, Y.; Fu, X.; et al. Long-term continuous ammonia electrosynthesis. Nature 2024, 629, 92-7.