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The Reaction of Substituted Vinylsilanes with Lithium Metal
Author(s) -
Maercker Adalbert,
Reider Kerstin,
Girreser Ulrich
Publication year - 1998
Publication title -
european journal of organic chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.825
H-Index - 155
eISSN - 1099-0690
pISSN - 1434-193X
DOI - 10.1002/(sici)1099-0690(199807)1998:7<1455::aid-ejoc1455>3.0.co;2-v
Subject(s) - vinylsilane , chemistry , lithium (medication) , metal , medicinal chemistry , silylation , stereoselectivity , lithium metal , hydride , derivative (finance) , solvent , proton , catalysis , photochemistry , organic chemistry , medicine , electrode , economics , financial economics , electrolyte , endocrinology , physics , quantum mechanics
Vinylsilanes are known to react with lithium metal to form either 1,2‐dilithioethanes by reduction or 1,4‐dilithiobutanes by reductive dimerization. The reaction of the substituted vinylsilanes 3 , ( Z )‐ 13b , 17b , c , 42b , c , 44 , and 51 with lithium has been investigated. Depending on the substituents on the vinylsilane and the solvent employed, several new reaction pathways are observed, which have been proved by independent syntheses of the reactive intermediates ( E )‐ 14b , 18d , and 25‐27 . Thus, besides the known elimination of lithium hydride, either a 1,4‐proton shift of 25 to 26 or a Grovenstein‐Zimmerman rearrangement of 45 to 47 can occur as follow‐up reactions. Furthermore, two different types of dimerization of the silyl‐substituted vinyllithium compounds have been identified. Either the vinyllithium compound 18d adds to the starting vinylsilane leading to the monolithiumorganic species 41 , or lithium metal catalyzed dimerization to the 1,4‐dilithio‐2‐butene derivative 49 takes place, which is without precedence.