化学
均分解
激进的
位阻效应
氢原子萃取
电泳剂
区域选择性
催化作用
光化学
亲核细胞
催化循环
氢
计算化学
药物化学
从头算
极性效应
反应速率常数
从头算量子化学方法
反应性(心理学)
作者
Vikram Paul,Brian P. Roberts,Colin R. Willis
出处
期刊:Journal of the Chemical Society
[The Royal Society of Chemistry]
日期:1989-01-01
卷期号: (12): 1953-1961
被引量:43
摘要
E.s.r. spectroscopy has been used to show that abstraction of electron-deficient hydrogen atoms from α-C-H groups in esters, ketones, and acetic anhydride by electrophilic t-butoxyl radicals is catalysed by amine–alkylboranes, in particular by trimethylamine–thexylborane (Me3N→BH2Thx; Thx =–CMe2CMe2H)(2). The single-step abstraction by ButO˙ is replaced by a two-step catalytic cycle in which ButO˙ first abstracts electron-rich hydrogen from the amine–alkylborane to give a nucleophilic amine-alkylboryl radical, which subsequently abstracts with high regioselectivity the electron-deficient α–hydrogen from the carbonyl compound. Both steps of this catalytic cycle are promoted by favourable polar effects, while such effects militate against direct α-hydrogen abstraction by ButO˙. The rate coefficient for hydrogen abstraction from (2) by ButO˙ to give the aminel alkylboryl radical Me3N→BHThx, has been estimated to be 4.7 × 107 dm3 mol–1 s–1 at 189 K in cyclopropane. Relative reactivities of carbonyl compounds towards α-hydrogen-atom abstraction by amine-alkylboryl radicals have been determined in competition experiments at 189 K and shown to depend on enthalpic, polar, and steric factors. Towards Me3N→BHThx, the relative molar reactivities of MeCO2Et, MeCH2CO2Et, and Me2CHCO2Et are 1 : 4.5 : 0.4, while towards the less bulky Me3N→BHMe they are 1 : 6.7 : 7.3, showing the importance of steric effects in determining the rate of hydrogen abstraction. Ab initio molecular-orbital calculations have been carried out at the MP3/6-31 G**//HF/6-31 G** level for H3N→BH2Me and H3N→BHMe and the strengths of the B–H and B–C bonds in ammonia–methylborane are estimated to be 432 and 404 kJ mol–1, respectively.
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