Computational Study on Mechanisms of C2H5O2＋OH Reaction and Properties of C2H5O3H Complex  

作　　者：LIU Yanli CHEN Long CHEN Dongping WANG Weina LIU Fengyi WANG Wenliang 

机构地区：[1]Key Laboratory for Macromolecular Science of Shaanxi Province, School of Chemistry and Chemical Engineering, Shaanxi Normal University, Xi "an 710119, P. R. China

出　　处：《Chemical Research in Chinese Universities》2017年第4期623-630,共8页高等学校化学研究（英文版）

基　　金：Supported by the National Natural Science Foundation of China（Nos.21473108, 21473107） and the Fundamental Research Funds for the Central Universities of China（No.GK201603035）.

摘　　要：A comprehensive theoretical study on the bimolecular reaction of C2H502 with OH radicals was performed at the CCSD（T）/6-311＋＋G（2df2p）//B3LYP/6-311＋G（d,p） level of theory. The calculation results show that C2H5O2 ＋ OH reaction proceeds on both the singlet and the triplet potential energy surfaces（PESs）. On the singlet PES, the favorable pathway is the addition of OH radical to the terminal oxygen atom of C2H5O2 radical, leading to the formation of trioxide C2H5O3H with a barrierless process. Then, the trioxide directly decomposes to the products C2H50 and HO2 radicals. On the triplet PES, the predominant pathways are a and β hydrogen atom abstractions of C2H5O2 radical by OH radical-forming products 3CH3CHO2＋H2O and 3CH2CH2O2＋H2O, and the corresponding bar- tiers are 12.02（3TS8） and 19.19 kJ/mol（3TS9）, respectively. In addition, the comprehensive properties of trioxide C2H503H were investigated for the ftrst time. The results indicate that the trioxide complex RC1 can exist stably in the atmosphere owing to a significantly large and negative enthalpy of formation（-118.44 kJ/mol） as well as a high first excitation energy（5.94 eV）.A comprehensive theoretical study on the bimolecular reaction of C2H502 with OH radicals was performed at the CCSD（T）/6-311＋＋G（2df2p）//B3LYP/6-311＋G（d,p） level of theory. The calculation results show that C2H5O2 ＋ OH reaction proceeds on both the singlet and the triplet potential energy surfaces（PESs）. On the singlet PES, the favorable pathway is the addition of OH radical to the terminal oxygen atom of C2H5O2 radical, leading to the formation of trioxide C2H5O3H with a barrierless process. Then, the trioxide directly decomposes to the products C2H50 and HO2 radicals. On the triplet PES, the predominant pathways are a and β hydrogen atom abstractions of C2H5O2 radical by OH radical-forming products 3CH3CHO2＋H2O and 3CH2CH2O2＋H2O, and the corresponding bar- tiers are 12.02（3TS8） and 19.19 kJ/mol（3TS9）, respectively. In addition, the comprehensive properties of trioxide C2H503H were investigated for the ftrst time. The results indicate that the trioxide complex RC1 can exist stably in the atmosphere owing to a significantly large and negative enthalpy of formation（-118.44 kJ/mol） as well as a high first excitation energy（5.94 eV）.

关 键 词：C2H5O2 radical Trioxide C2H5O3H complex Reaction mechanism Enthalpy of formation First excited energy 

分 类 号：O561.5[理学—原子与分子物理] P435[理学—物理]