18052-87-4Relevant academic research and scientific papers
Selective homo- And cross-desilacoupling of aryl and benzyl primary silanes catalyzed by a barium complex
Cheng, Jianhua,Liu, Zhizhou,Shi, Xianghui
, p. 8340 - 8346 (2020/07/07)
Under mild conditions (25 °C, 5 mol% cat.), highly selective homo- and cross-desilacoupling of aryl and benzyl primary silanes to secondary silanes was achieved by the use of the heteroleptic barium aminobenzyl complex [(TpAd,iPr)Ba(CH2C6H4NMe2-o)] (TpAd,iPr = hydrotris(3-adamantyl-5-isopropyl-pyrazolyl)borate) (1) as a catalyst. Dihydrosilanes originating from catalytic redistribution and cross-desilacoupling reactions were isolated in fine yields, which demonstrates the feasible application of the barium complex in the syntheses of secondary aryl- and benzylsilanes. This journal is
Carbon-Silicon Bond Formation in the Synthesis of Benzylic Silanes
Visco, Michael D.,Wieting, Joshua M.,Mattson, Anita E.
supporting information, p. 2883 - 2885 (2016/07/06)
Sterically encumbered organosilanes can be difficult to synthesize with conventional, strongly basic reagents; the harsh reaction conditions are often low yielding and not suitable for many functional groups. As an alternative to the typical anionic strat
Acceleration of the substitution of silanes with Grignard reagents by using either LiCl or YCl3/MeLi
Hirone, Naoki,Sanjiki, Hiroaki,Tanaka, Ryoichi,Hata, Takeshi,Urabe, Hirokazu
supporting information; experimental part, p. 7762 - 7764 (2010/12/25)
Getting up to speed: Both LiCl and the YCl3/MeLi catalyst system have an acceleration effect upon the substitution of silanes using Grignard reagents (see scheme). The method provides access to benzyl-, allyl-, and arylsilanes in good yields from the starting silanes.
