The reactions of organometallic compounds containing silicon. Part III. Reactions of trimethyl-, dimethylphenyl-, methyldiphenyl-, and triphenyl-silyl-lithium with fluorene

Journal of The Chemical Society B: Physical Organic Pub Date : 1971-01-01 DOI:10.1039/J29710001110

A. G. Evans, M. A. Hamid, N. H. Rees

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引用次数: 7

Abstract

Dimethylphenyl-, methyldiphenyl-, and triphenyl-silyl-lithium react very rapidly with fluorene in tetrahydrofuran. The reaction can be followed at low temperature with a stop-flow technique. The thermodynamic constants of activation at –30° for this reaction with Ph3SiLi, MePh2SiLi, and Me2PhSiLi, respectively are: ΔG‡= 14·0, 13·6, 13·6 kcal. mole–1; ΔH‡= 6·1, 6·6, 6·2 kcal. mole–1; ΔS‡=–32·5, –28·8, –30·3 cal. mole–1 deg.–1. Addition of LiBPh4 to these systems has negligible effect on the rate constants.The fact that the replacement of phenyl by methyl produces so small a change has been discussed in relation to the constancy of λmax. for R3SiLi as phenyl is replaced by methyl.For the reaction of MePh2SiLi with fluorene at –30° in dimethoxyethane the thermodynamic constants of activation are: ΔG‡= 11·7 kcal. mole–1; ΔH‡= 3·5 kcal. mole–1; ΔS‡=–33·7 cal. mole–1 deg–1.Hexamethyldisilane has been cleaved by lithium in tetrahydrofuran solution to give trimethyl-silyl-lithium, and the reaction of this with fluorene has been studied qualitatively.

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含硅的有机金属化合物的反应。第三部分。三甲基、二甲基苯基、甲基二苯基和三苯基硅基锂与芴的反应

二甲基苯基、二甲基苯基和三苯基硅基锂在四氢呋喃中与芴反应非常迅速。该反应可以在低温下用停止流动技术进行。Ph3SiLi、MePh2SiLi和Me2PhSiLi在-30°时的活化热力学常数分别为:ΔG‡= 14.0、13.6、13.6 kcal. mol - 1;ΔH‡= 6·1,6·6,6·2 kcal. mol - 1;ΔS‡= -32·5，-28·8，-30·3卡摩尔- 1度。在这些系统中添加LiBPh4对速率常数的影响可以忽略不计。讨论了甲基取代苯基所产生的微小变化与λmax常数的关系。对于R3SiLi，苯基被甲基取代。MePh2SiLi与芴在二甲氧基乙烷中-30°反应的热力学活化常数为:ΔG‡= 11·7 kcal. mol - 1;ΔH‡= 3.5 kcal. mol - 1;ΔS‡= -33·7卡摩尔- 1度- 1。用锂在四氢呋喃溶液中裂解六甲基二硅烷，得到三甲基硅基锂，并对其与芴的反应进行了定性研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of The Chemical Society B: Physical Organic

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