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Unraveling the Dual Dependence of Surface and NH <sub>3</sub> Concentration on Cobalt-Catalyzed Ammonia Decomposition

Chunyao Fang, Zheng Li, Zhanzhao Fu, Yuting Zhou, Hao Zhang, Sihang Liu, Aoni Xu, Ang Cao, Jianhua Yan

2025ACS Catalysis5 citationsDOI

Abstract

High Resolution Image Download MS PowerPoint Slide Ammonia decomposition offers a promising route to carbon-free hydrogen, yet its activity is highly sensitive to both surface structure and NH 3 concentration. This dual dependence makes it challenging to design catalysts that remain high efficiency throughout the entire process. Here, we systematically evaluate all potential exposed surfaces and establish an atomistic framework for linking structure–activity relationships across varying reaction stages on cobalt, a widely used ammonia decomposition catalyst. A clear surface-dependent reactivity is identified, with stepped HCP Co(10–10) and FCC Co(110) being the most active, and Co(10–10) consistently outperforming others, indicating that enriching this surface can enhance overall performance. Mechanistically, surface sensitivity is primarily attributed to variations in the d -band center, which correlates linearly with activity. Furthermore, we propose a general criterion of Arrhenius slope (−1/ RT ), revealing that NH 3 concentration dependence stems from shifts in the rate-limiting step, transitioning from N–N coupling to alternative steps as NH 3 concentration increases.

Topics & Concepts

DecompositionAmmoniaCatalysisArrhenius equationReactivity (psychology)ChemistrySensitivity (control systems)Surface (topology)Dual (grammatical number)Coupling (piping)Ammonia productionMaterials scienceInorganic chemistrySurface structureThermodynamicsChemical physicsPhysical chemistryAnalytical Chemistry (journal)Chemical engineeringCharacterization (materials science)Ammonia Synthesis and Nitrogen ReductionAdvanced Photocatalysis TechniquesCatalytic Processes in Materials Science
Unraveling the Dual Dependence of Surface and NH <sub>3</sub> Concentration on Cobalt-Catalyzed Ammonia Decomposition | Litcius