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Catalytic ammonia formation from dinitrogen, water, and visible light energy

Yasuomi Yamazaki, Yoshiki Endo, Yoshiaki Nishibayashi

2025Nature Communications12 citationsDOIOpen Access PDF

Abstract

The development of the production method for green ammonia, which is produced only from ubiquitous and clean small molecules (i.e., dinitrogen and water) using renewable energy, has been desired for a next-generation carbon-free energy carrier to build a carbon-neutral society and solve global warming. We have herein achieved visible-light-driven catalytic ammonia formation from dinitrogen and water under ambient conditions using tertiary phosphines, which are widely-used organic compounds, as an electron donor in the presence of molybdenum complexes as molecular catalysts for ammonia formation from dinitrogen and iridium complexes as photosensitizers. In this reaction system, visible light energy enables iridium photosensitizers to trigger electron relay from tertiary phosphines (R3P) as weak reductants to molybdenum catalysts, and the produced radical cation (R3P•+) activates water molecules to donate protons for ammonia formation to molybdenum catalysts via the production of a phosphine-water adducted radical cation (R3P•+-OH2). The production of green ammonia is important for the development of next-generation carbon-free energy carriers. Here, the authors demonstrate visible-light-driven catalytic ammonia formation from dinitrogen and water under ambient conditions using tertiary phosphines in the presence of molybdenum and iridium complexes.

Topics & Concepts

CatalysisAmmoniaVisible spectrumPhotochemistryAmmonia productionWater splittingChemistryLight energyMaterials sciencePhysicsPhotocatalysisBiochemistryOptoelectronicsOpticsAmmonia Synthesis and Nitrogen ReductionChemical Reactions and IsotopesAdvanced Data Storage Technologies