32135-09-4Relevant articles and documents
Use of Silylated Formiates as Hydrosilane Equivalents
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Paragraph 0514, (2021/09/26)
The present invention relates to a method for preparing organic compounds of formula (I) by reaction between a silylated formiate of formula (II) and an organic compound in the presence of a catalyst and optionally of an additive. The invention also relates to use of the method for preparing organic compounds of formula (I) for the preparation of reagents for fine chemistry and for heavy chemistry, as well as in the production of vitamins, pharmaceutical products, adhesives, acrylic fibres, synthetic leathers, and pesticides.
HYDROXIDE-CATALYZED FORMATION OF SILICON-OXYGEN BONDS BY DEHYDROGENATIVE COUPLING OF HYDROSILANES AND ALCOHOLS
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Paragraph 0148; 0156, (2017/02/28)
The present disclosure is directed to methods for dehydrogenatively coupled hydrosilanes and alcohols, the methods comprising contacting an organic substrate having at least one organic alcohol moiety with a mixture of at least one hydrosilane and sodium and/or potassium hydroxide, the contacting resulting in the formation of a dehydrogenatively coupled silyl ether. The disclosure further described associated compositions and methods of using the formed products.
Sodium Hydroxide Catalyzed Dehydrocoupling of Alcohols with Hydrosilanes
Toutov, Anton A.,Betz, Kerry N.,Haibach, Michael C.,Romine, Andrew M.,Grubbs, Robert H.
supporting information, p. 5776 - 5779 (2016/11/29)
An O-Si bond construction protocol employing abundantly available and inexpensive NaOH as the catalyst is described. The method enables the cross-dehydrogenative coupling of an alcohol and hydrosilane to directly generate the corresponding silyl ether under mild conditions and without the production of stoichiometric salt byproducts. The scope of both coupling partners is excellent, positioning the method for use in complex molecule and materials science applications. A novel Si-based cross-coupling reagent is also reported.
Ruthenium catalyzed selective hydrosilylation of aldehydes
Chatterjee, Basujit,Gunanathan, Chidambaram
supporting information, p. 888 - 890 (2014/01/06)
A chemoselective hydrosilylation method for aldehydes is developed using a ruthenium catalyst [(Ru(p-cymene)Cl2)2] and triethylsilane; a mono hydride bridged dinuclear complex [{(η6-p- cymene)RuCl}2(μ-H-μ-Cl)] a
O-SILYLATED KETENE ACETAL CHEMISTRY; DIVINYLOXYSILANE DERIVATIVES AS NOVEL AND USEFUL BIFUNCTIONAL PROTECTING AGENTS FOR H-ACIDIC MATERIALS
Kita, Yasuyuki,Yasuda, Hitoshi,Sugiyama, Yoshie,Fukata, Fumio,Haruta, Jun-ichi,Yasumitsu, Tamura
, p. 1273 - 1276 (2007/10/02)
Novel reagents, bis(1-methoxy-2-methyl-1-propenyloxy)silanes (2a-d) have been shown to be very useful bifunctional protecting agents for various types of H-acidic materials, such as diols, dithiols, diacids and their combined materials.The reaction proceeds rapidly under mild conditions to give the corresponding silylene derivatives in almost quantitative yields.
