Photodriven Ammonia Synthesis from N2 and H2: Recycling of a Molecular Molybdenum Nitride

Junho Kim; Grace B. Panetti; Nidhi Kaul; Sangmin Kim; Paul J. Chirik

doi:10.1021/jacs.4c14966

Photodriven Ammonia Synthesis from N₂ and H₂: Recycling of a Molecular Molybdenum Nitride

Junho Kim, Grace B. Panetti, Nidhi Kaul, Sangmin Kim, Paul J. Chirik

Chemistry

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The synthesis of ammonia from its elements, N₂ and H₂, is the most atom-economical and thermodynamically preferred route but presents a high kinetic barrier and thus is rare using molecular compounds. Irradiation of a molecular molybdenum nitride prepared from N₂ cleavage with visible light in the presence of an iridium photocatalyst and 1-4 atm of H₂ produced high yields of ammonia along with the formation of a cationic, formally molybdenum(VI) pentahydride as the major molybdenum-containing product. Continued irradiation of the molybdenum hydride under an N₂ atmosphere resulted in regeneration of the molybdenum nitride that was recycled and used for additional hydrogenation to generate more ammonia, demonstrating superstoichiometric batch ammonia synthesis using only N₂ and H₂ with molecular compounds under ambient conditions.

Original language	English (US)
Pages (from-to)	8215-8226
Number of pages	12
Journal	Journal of the American Chemical Society
Volume	147
Issue number	10
DOIs	https://doi.org/10.1021/jacs.4c14966
State	Published - Mar 12 2025

All Science Journal Classification (ASJC) codes

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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abstract = "The synthesis of ammonia from its elements, N2 and H2, is the most atom-economical and thermodynamically preferred route but presents a high kinetic barrier and thus is rare using molecular compounds. Irradiation of a molecular molybdenum nitride prepared from N2 cleavage with visible light in the presence of an iridium photocatalyst and 1-4 atm of H2 produced high yields of ammonia along with the formation of a cationic, formally molybdenum(VI) pentahydride as the major molybdenum-containing product. Continued irradiation of the molybdenum hydride under an N2 atmosphere resulted in regeneration of the molybdenum nitride that was recycled and used for additional hydrogenation to generate more ammonia, demonstrating superstoichiometric batch ammonia synthesis using only N2 and H2 with molecular compounds under ambient conditions.",

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AU - Kim, Junho

AU - Panetti, Grace B.

AU - Kaul, Nidhi

AU - Kim, Sangmin

AU - Chirik, Paul J.

PY - 2025/3/12

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AB - The synthesis of ammonia from its elements, N2 and H2, is the most atom-economical and thermodynamically preferred route but presents a high kinetic barrier and thus is rare using molecular compounds. Irradiation of a molecular molybdenum nitride prepared from N2 cleavage with visible light in the presence of an iridium photocatalyst and 1-4 atm of H2 produced high yields of ammonia along with the formation of a cationic, formally molybdenum(VI) pentahydride as the major molybdenum-containing product. Continued irradiation of the molybdenum hydride under an N2 atmosphere resulted in regeneration of the molybdenum nitride that was recycled and used for additional hydrogenation to generate more ammonia, demonstrating superstoichiometric batch ammonia synthesis using only N2 and H2 with molecular compounds under ambient conditions.

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Photodriven Ammonia Synthesis from N₂ and H₂: Recycling of a Molecular Molybdenum Nitride

Abstract

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