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Reactions with Silicon Compounds

The irradiation of a SiH4-Np3 gas mixture of 35 Torr with a CO2 laser (929.02 cm  [Pg.223]

15 W/cm ) produces a solid mixture of Si, Si3N4, Si3N40n, and K2SiFe (NF3 contained potassium as an impurity) as well as gaseous SiHxp4 x (x = 0 to 4) compounds. With excess NF3 the intermediate radical SiF is formed in its electronically excited state A Z as deduced by its strong fluorescence [1]. [Pg.223]

On passing NF3 over SiOg at 615°C, (NO)2SiFe (about 90% yield), SiF4, NO, and NO2 are produced [2] according to [Pg.224]

Tetrabutylammonium fluoride (TBAF) is usually used in the form of the trihydrate or as a solution in tetrahydrofuran (THF). The pure form is difficult to isolate, owing to decomposition to FFF, tributylamine, and but-l-ene [18, 19] on dehydration. It has been used for a variety of reactions, including as a catalyst for various reactions with silicon compounds [20, 21]. One of its main uses is in the cleavage of silyl ether protecting groups [22]. [Pg.177]

An important reaction of silicon compounds containing electronegative substituents, such as the halogens or a Group 15 or 16 element, is hydrolysis, which often occurs very readily even with atmospheric moisture. The primary reaction in silicone production is the hydrolysis of halosilanes, usually the readily available chlorosilanes, to give silanols, which then undergo acid-catalyzed condensation with loss of water, as shown in Scheme 1. [Pg.152]

Marciniec, B. Hydrosilylation and Related Reaction of Silicon Compounds. In Applied Homogeneous Catalysis with Organometallic Compounds Cornils, B., Herrmann, W. A., Eds. VCH Weinheim, Germany, 1996 pp 487-506. [Pg.302]

Compounds 561/562 were transformed into substituted tetrahydrofurans 563 in 23-51% yield by reaction with silicon-containing nucleophiles in the presence of On the... [Pg.737]

The reaction of methylenecyclopropanes with transition metal complexes is well known to promote a catalytic a-ir cycloaddition reaction with unsaturated compounds, in which a trimethylenemethane complex might exist71-76. Recently, much interest has been focused on the interaction of strained silicon-carbon bonds with transition metal complexes. In particular, the reaction of siliranes with acetylene in the presence of transition metal catalysts was extensively investigated by Seyferth s and Ishikawa s groups77-79. In the course of our studies on alkylidenesilirane, we found that palladium catalyzed reaction of Z-79 and E-79 with unsaturated compounds displayed ring expansion reaction modes that depend on the (Z) and (E) regiochemistry of 79 as well as the... [Pg.2424]

As mentioned previously, photocycloaddition reactions are a useful method for obtaining fullerene derivatives fused directly to heterocycles. Such compounds have attracted much interest because they might have interesting properties, e.g., amino acid fullerene derivatives as biologically active compounds or pyrrolidino-fullerenes as key precursors for a great number of fullerenes donor-acceptor bridged dyads and triads. Fullerenes functionalized with silicon compounds are of great interest in materials science. The synthesis of these compounds will be described in this section. [Pg.703]

While platinum and rhodium are predominantly used as efficient catalysts in the hydrosilylation and cobalt group complexes are used in the reactions of silicon compounds with carbon monooxide, in the last couple of years the chemistry of ruthenium complexes has progressed significantly and plays a crucial role in catalysis of these types of processes (e.g., dehydrogenative silylation, hydrosilylation and silylformylation of alkynes, carbonylation and carbocyclisation of silicon substrates). [Pg.242]

Generally speaking, reactions of silicon compounds with poor leaving groups such as H and OR result in retention of configuration. Inversion occurs only with... [Pg.4466]

Transition metals have already established a prominent role in synthetic silicon chemistry [1 - 5]. This is well illustrated by the Direct Process, which is a copper-mediated combination of elemental silicon and methyl chloride to produce methylchlorosilanes, and primarily dimethyldichlorosilane. This process is practiced on a large, worldwide scale, and is the basis for the silicones industry [6]. Other transition metal-catalyzed reactions that have proven to be synthetically usefiil include hydrosilation [7], silane alcdiolysis [8], and additions of Si-Si bonds to alkenes [9]. However, transition metal catalysis still holds considerable promise for enabling the production of new silicon-based compounds and materials. For example, transition metal-based catalysts may promote the direct conversion of elemental silicon to organosilanes via reactions with organic compounds such as ethers. In addition, they may play a strong role in the future... [Pg.382]

See other pages where Reactions with Silicon Compounds is mentioned: [Pg.320]    [Pg.223]    [Pg.320]    [Pg.223]    [Pg.145]    [Pg.146]    [Pg.23]    [Pg.281]    [Pg.367]    [Pg.5]    [Pg.511]    [Pg.162]    [Pg.345]    [Pg.311]    [Pg.577]    [Pg.1808]    [Pg.342]    [Pg.206]    [Pg.667]    [Pg.118]    [Pg.413]    [Pg.318]    [Pg.29]    [Pg.469]    [Pg.844]    [Pg.118]    [Pg.469]    [Pg.828]   


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Silicon compounds reactions

Silicon reaction

Silicon reaction with

Silicone compounds

With silicon compounds

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