AI Article Synopsis
- Recent research highlights the importance of supported clusters in ammonia synthesis due to their efficient atomic arrangement and high dispersion.
- This study examines how flexible iron clusters within two-dimensional carbon-nitrogen materials perform as catalysts for ammonia synthesis, using advanced simulations.
- Key findings suggest that the adaptability of these iron clusters improves their catalytic efficiency by lowering energy barriers during the reaction, paving the way for more sustainable ammonia production technologies.
Article Abstract
In recent years, significant research has been conducted on supported clusters due to their high dispersion, atomic efficiency, and unsaturated coordination, particularly in ammonia synthesis. This study investigates the catalytic performance of flexible iron clusters embedded in two-dimensional carbon-nitrogen materials for ammonia synthesis. Using density functional theory and molecular dynamics simulations, we demonstrate that the structural flexibility of these clusters significantly enhances their catalytic activity. The flexibility coefficient, derived from the full width at half maximum of the Fe-Fe radial distribution function, is introduced as a novel descriptor for N bond cleavage. Our findings reveal that flexible Fe clusters adaptively modify their structures during the reaction process, lowering energy barriers for N activation and subsequent hydrogenation. This study opens new avenues for designing advanced catalytic systems based on structural flexibility to meet the growing demand for sustainable and energy-efficient ammonia production.
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| http://dx.doi.org/10.1021/acs.jpclett.4c02196 | DOI Listing |
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