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探索X(-)+CH₃CH₂Cl(X = F、Cl、Br、HO、HS、HSe、NH₂、PH₂、AsH₂、CH₃、SiH₃和GeH₃)的E2和SN2反应中的反应活性趋势。

Exploring the Reactivity Trends in the E2 and SN2 Reactions of X(-) + CH3CH2Cl (X = F, Cl, Br, HO, HS, HSe, NH2 PH2, AsH2, CH3, SiH3, and GeH3).

作者信息

Wu Xiao-Peng, Sun Xiao-Ming, Wei Xi-Guang, Ren Yi, Wong Ning-Bew, Li Wai-Kee

机构信息

Department of Biology and Chemistry, City University of Hong Kong, Kowloon, Hong Kong, College of Chemistry, Key Laboratory of Green Chemistry and Technology, Ministry of Education, and Key State Laboratory of Biotherapy, Sichuan University, Chengdu 610064, People's Republic of China, and Department of Chemistry, The Chinese University of Hong Kong, Shatin, N.T., Hong Kong.

出版信息

J Chem Theory Comput. 2009 Jun 9;5(6):1597-606. doi: 10.1021/ct900041y.

Abstract

The reactivity order of 12 anions toward ethyl chloride has been investigated by using the G2(+) method, and the competitive E2 and SN2 reactions are discussed and compared. The reactions studied are X(-) + CH3CH2Cl → HX + CH2═CH2 + Cl(-) and X(-) + CH3CH2Cl → CH3CH2X + Cl(-), with X = F, Cl, Br, HO, HS, HSe, NH2 PH2, AsH2, CH3, SiH3, and GeH3. Our results indicate that there is no general and straightforward relationship between the overall barriers and the proton affinity (PA) of X(-); instead, discernible linear correlations only exist for the X's within the same group of the periodic table. Similar correlations are also found with the electronegativity of central atoms in X, deformation energy of the E2 transition state (TS), and the overall enthalpy of reaction. It is revealed that the electronegativity will significantly affect the barrier height, and a more electronegative X will stabilize the E2 and SN2 transition states. Multiple linear regression analysis shows that there is a reasonable linear correlation between E2 (or SN2) overall barriers and the linear combination of PA of X(-) and electronegativity of the central atom.

摘要

采用G2(+)方法研究了12种阴离子与氯乙烷的反应活性顺序,并对竞争性的E2和SN2反应进行了讨论和比较。所研究的反应为X(-)+CH3CH2Cl→HX+CH2═CH2+Cl(-)以及X(-)+CH3CH2Cl→CH3CH2X+Cl(-),其中X = F、Cl、Br、HO、HS、HSe、NH2、PH2、AsH2、CH3、SiH3和GeH3。我们的结果表明,X(-)的整体势垒与质子亲和能(PA)之间不存在普遍且直接的关系;相反,仅在元素周期表同一族内的X之间存在明显的线性相关性。在X中心原子的电负性、E2过渡态(TS)的形变能以及反应的总焓方面也发现了类似的相关性。结果表明,电负性会显著影响势垒高度,电负性更强的X会使E2和SN2过渡态更稳定。多元线性回归分析表明,E2(或SN2)的整体势垒与X(-)的PA和中心原子电负性的线性组合之间存在合理的线性相关性。

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