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Efficient, “one-pot” synthesis of silylene–acetylene and disilylene–acetylene preceramic polymers from trichloroethylene

✍ Scribed by Sina Ijadi-Maghsoodi; Yi Pang; Thomas J. Barton

Book ID
105337478
Publisher
John Wiley and Sons
Year
1990
Tongue
English
Weight
516 KB
Volume
28
Category
Article
ISSN
0887-624X

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✦ Synopsis

Abstract

An extremely efficient process has been developed for the synthesis of linear silylene‐acetylene and disilylene‐acetylene polymers. Trichloroethylene is quantitatively converted by n‐butyllithium to dilithioacetylene. Quenching with dialkyl‐or diaryldichlorosilanes affords high yields of the polymers, \documentclass{article}\pagestyle{empty}\begin{document}$ \rlap{--} [{\rm SiR}_{\rm 2} \hbox{---} {\rm C} \equiv {\rm C\rlap{--} ]}_n ,{\rm and }\rlap{--} [{\rm SiMe}_{\rm 2} {\rm SiMe}_{\rm 2} - {\rm C} \equiv {\rm C\rlap{--} ]}_n $\end{document} if ClMe~2~SiSiMe~2~Cl is employed. Molecular weights are much higher with this route than when acetylene is used as the dilithio‐ or dimagnesium acetylide precursor. Some of these polymers can be pulled into continuous fibers, and all can be cast into coherent films and thermally converted into silicon carbide.

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