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Clarifying NH2 + O(3P) reaction dynamics: A full-dimensional MRCI, machine-learned PES unravels high-temperature kinetics.

PubMed

Authors: Xing Y, Hua W, Zuo J

Year

2026

Paper ID

52110

Status

Peer-reviewed

Abstract Read

~2 min

Abstract Words

109

Citations

Abstract

The NH2 + O reaction represents a critical oxidation pathway in ammonia and hydrazine combustion, yet significant discrepancies persist in reported kinetics. Here, we generate a full-dimensional ground-state potential energy surface (PES) for NH2O using high-level internally contracted multi-reference configuration interaction (ic-MRCI) calculations and the permutation invariant polynomial-neural network method. The PES encompasses all energetically accessible channels, including HNO + H, NH + OH, NO + H2, and HON + H. Quasi-classical trajectory calculations on this surface yield thermal rate coefficients and branching ratios over a wide temperature range, particularly extending into the high-temperature regime relevant to combustion. The results provide accurate first-principles kinetic data essential for refining combustion models of nitrogen-containing fuels.

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The NH2 + O reaction represents a critical oxidation pathway in ammonia and hydrazine combustion, yet significant discrepancies persist in reported kinetics.

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References & Citation Signals

[1] DOI https://doi.org/10.1063/5.0324814 [2] Publisher https://pubmed.ncbi.nlm.nih.gov/41919697/

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