Catalytic synthesis of silicon carbide preceramic polymers Polycarbosilanes.

Catalytic synthesis of silicon carbide preceramic polymers [electronic resource] : Polycarbosilanes.

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Polycarbosilanes are the most successful and widely studied class of polymer precursors for silicon carbide, but traditional methods for their synthesis are inefficient and nonselective. This project is focused on developing transition metal catalysts for the synthesis of polycarbosilanes and other...

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Bibliographic Details
Online Access: Online Access
Corporate Authors: University of Pennsylvania (Researcher), United States. Department of Energy. Chicago Operations Office (Researcher)
Format: Government Document Electronic eBook
Language:English
Published: Washington, D.C. : Oak Ridge, Tenn. : United States. Dept. of Defense ; distributed by the Office of Scientific and Technical Information, U.S. Dept. of Energy, 1992.
Subjects:
Catalysts.
Germanium Complexes.
Organic Compounds.
Catalysis.
Progress Report.
Ruthenium Complexes.
Document Types.
Precursor.
Carbides.
Silicon Compounds.
Silanes.
Carbon Compounds.
Hydrides.
Transition Element Complexes.
Silicon Carbides.
Hydrogen Compounds.
Organic Silicon Compounds.
Complexes.
Inorganic, Organic, Physical And Analytical Chemistry.
Description
Summary:Polycarbosilanes are the most successful and widely studied class of polymer precursors for silicon carbide, but traditional methods for their synthesis are inefficient and nonselective. This project is focused on developing transition metal catalysts for the synthesis of polycarbosilanes and other preceramic polymers. In recent work we have developed the first homogeneous transition metal catalysts for the dehydrogenative coupling of simple alkyl silanes to oligomeric and polymeric carbosilanes, H-(SiR[sub 2]CR[prime][sub 2])n-SiR[sub 3]. The coupling of alkylgermanes, however, yields the corresponding oligomeric poly(germanes) (Ge-Ge). Future work will help elucidate the mechanisms of these catalytic process, explore the use of hydrogen acceptors as reaction accelerators, and develop new and more active catalysts.
Item Description:Published through the Information Bridge: DOE Scientific and Technical Information.
10/01/1992.
"doe/er/14173-t1"
"DE93008634"
Berry, D.H.
Physical Description:Pages: (5 p) : digital, PDF file.

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