A Computational Study of the Mechanism and Kinetics of the 4-Methyl Aniline Reaction with OH Radicals

Abstract

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In this study, the mechanism of the reaction between 4-methyl aniline and hydroxyl free radicals was computed using the M06-2X and CCSD(T) methods, along with the 6-311++G(3df,2p) basis set. The kinetics of the reaction were calculated utilizing the transition state theory and the microcanonical Rice–Ramsperger–Kassel–Marcus theory. The calculated results revealed that NH-C6H4-CH3 was the key product of the system. The total rate coefficient of the system, k_total = 2.04 × 10−18 T2.07 exp[(11.2 kJ/mol)/RT] cm3/s, was found under the 300–2000 K interval, with P = 760 Torr. At the ambient conditions, the velocity of this reaction was about ten times larger than that of the reaction between C6H5CH3 and hydroxyl free radicals, but it was smaller than the aniline + OH rate.

Keywords

• 4-methyl aniline
• hydroxyl radical
• mechanism
• kinetics
• potential energy surface