Silyl enol ether synthesis

Jauch, J. Stereochemistry of the Rubottom oxidation with bicyclic silyl enol ethers synthesis and dimerization reactions of bicyclic a-hydroxy ketones. Tetrahedron 1994, 50,12903-12912. 

Unique successful hydroxylations with ozone and mCPBA First Successful Method Epoxidation of Silyl Enol Ethers (Rubottom Oxidation) Method, mechanism, and isolation of intermediates Chemo- regio- and stereoselectivity synthesis of fused y-laclones Hydroxylation of Amino-ketones via Silyl Enol Ethers Synthesis of vinca alkaloids and model compounds... 

Another silyl enol ether synthesis developed by Reich utilized systems where the Brook rearrangement led to y elimination from the... 

The concept of silyl enol ether synthesis via / -elimination from a Brook rearrangement-derived carbanion also appeared in Wicha s studies on additions of 1-phenyl-l//-tetrazol-5-yl (PT) sulfonyl anions to acyl silanes. When PT sulfone 34 was deprotonated in the presence of acyl(triphenyl)silane, ketone 36 was isolated in good yield after hydrolysis of the silyl enol ether intermediate 35. The mechanism involved addition of the... 

Fleming, I. and Paterson, I., A simple synthesis of carvone using silyl enol ethers. Synthesis, 736,1979. 

In the prostaglandin synthesis shown, silyl enol ether 216, after transmetaJ-lation with Pd(II), undergoes tandem intramolecular and intermolecular alkene insertions to yield 217[205], It should be noted that a different mechanism (palladation of the alkene, rather than palladium enolate formation) has been proposed for this reaction, because the corresponding alkyl enol ethers, instead of the silyl ethers, undergo a similar cyclization[20I],... 

Silylated cyanohydrins have also been prepared via silylation of cyanohydrins themselves and by the addition of hydrogen cyanide to silyl enol ethers. Silylated cyanohydrins have proved to be quite useful in a variety of synthetic transformations, including the regiospecific protection of p-quinones, as intermediates in an efficient synthesis of a-aminomethyl alcohols, and for the preparation of ketone cyanohydrins themselves.The silylated cyanohydrins of heteroaromatic aldehydes have found extensive use as... 

Selective fluonnation in polar solvents has proved commercially successful in the synthesis of 5 fluorouracil and its pyrimidine relatives, an extensive subject that will be discussed in another section Selective fluonnation of enolates [47], enols [48], and silyl enol ethers [49] resulted in preparation of a/phn-fluoro ketones, fieto-diketones, heta-ketoesters, and aldehydes The reactions of fluorine with these functionalities is most probably an addition to the ene followed by elimination of fluonde ion or hydrogen fluoride rather than a simple substitution In a similar vein, selective fluonnation of pyridmes to give 2-fluoropyridines was shown to proceed through pyridine difluondes [50]... 

Ironically, auxiliary-induced control via the alkene failed to generate synthetically useful selectivities, but direct substrate-induced control did. In particular, chiral silyl enol ethers with stereocenters in the y-position allowed the synthesis of enantiomerically... 

The combination of silyl enol ethers and fluoride ion provides more reactive anions to give alkylated nitre compounds in good yields after oxidation v/ith DDQ, as shovm in Eq. 9.22. This process provides a new method for synthesis of indoles and oxyindoles fsee Chapter 10, Symhesis of Hatarocydic Compoioids). 

Among the preformed enol derivatives used in this way have been enolates of magnesium, lithium, titanium, zirconium, and tin, ° silyl enol ethers, enol borinates,and enol borates, R CH=CR"—OB(OR)2. The nucleophilicity of silyl enol ethers has been examined. In general, metallic Z enolates give the syn (or erythro) pair, and this reaction is highly useful for the diastereoselective synthesis of these products. The ( ) isomers generally react nonstereoselectively. However, anti (or threo) stereoselectivity has been achieved in a number of cases, with titanium enolates, with magnesium enolates, with certain enol bor-inates, and with lithium enolates at — 78°C. ... 

OS 30] ]R 30] [P 22] The synthesis of nine C-C bonded products was made from four carbamates and five silyl enol ethers [66, 67]. Conversions ranged from 49 to 69% the corresponding selectivities ranged from 67 to 100%. Similar performance was achieved when serially processing the same reactions (see Serial combinatorial synthesis). 

Figure 4.46 Schematic of serial combinatorial synthesis for creating a cation pool from diverse carbamates and silyl enol ethers [66. ...

OS 30] [R 30] [P 22] By simple flow switching, serial combinatorial synthesis for creating a cation pool from diverse carbamates and silyl enol ethers was accomplished (Figure 4.46) [66, 67]. The conversions and selectivities were comparable to continuous processing using three feed streams only (see Conversion/yield/selec-tivity, above). 

Organic synthesis 74 [OS 74] Reaction between 4-bromobenzaldehyde and the silyl enol ether of cyclohexane [15]... 

P 55] Before synthesis, a micro-mixing tee chip micro reactor (Figure 4.85) (with two mixing tees and four reservoirs) was primed with anhydrous tetrahydrofuran (THF). A 40 gl volume of a 0.1 M solution of tetrabutylammonium fluoride trihydrate in anhydrous THF is filled into one reservoir of a micro-mixing tee chip reactor [15], 40 gl of a 0.1 M solution of 4-bromobenzaldehyde in anhydrous THF is added to a second reservoir, 40 gl of a 0.1 M solution of the silyl enol ether (masking the enolate of a carbonyl compound such as cyclohexanone) in anhydrous THF is added to a third reservoir and anhydrous TH F is filled into the fourth collection reservoir. Electrical fields of417,455,476 and 0 V cm are applied to transport the reaction species from the respective reservoirs. The reaction is carried out at room temperature. 

OS 75] ]R 4b] ]P 55] For the reaction of 4-bromobenzaldehyde with the silyl enol ether of acetophenone, 100% conversion with respect to the silyl enol ether was achieved in 20 min for a given set of electrical fields (375, 409, 381 and 0 V cm ) [15]. The corresponding batch synthesis time was about 1 day. 

The synthesis in Scheme 13.44 is also based on a carbohydrate-derived starting material. It controlled the stereochemistry at C(2) by means of the stereoselectivity of the Ireland-Claisen rearrangement in Step A (see Section 6.4.2.3). The ester enolate was formed under conditions in which the T -enolate is expected to predominate. Heating the resulting silyl enol ether gave a 9 1 preference for the expected stereoisomer. The... 

As discussed in Chapter 9, various nucleophiles can be introduced at the ortho position of nitroarenes via the VNS process. This provides a useful strategy for the synthesis of indoles. One of the most attractive and general methods of indoles and indolinones would be the reductive cyclization of a-nitroaryl carbonyl compounds (Eq. 10.54). The VNS and related reactions afford a-nitroaryl carbonyl compounds by a simple procedure. For example, alkylation of 4-fluoronitrobenzene with a lactone silyl enol ether followed by reductive cyclization leads to tryptophols (Eq. 10.55).73... 

Rawal and Kozmin have utilized a Reissert type reaction in the total synthesis of tabersonine. The requisite nitro ketone is prepared by SNAr reaction of o-nitrophenylphenyliodonium fluoride with ketone silyl enol ether (Scheme 10.10).96... 

Silyl enol ethers of alkenyl methyl ketones can be efficiently cyclized to cyclopentenones and cyclohexenones by treating them with stoichiometric amounts of palladium acetate244 an example indicating the elaboration of this approach to the synthesis of a reduced benzoxepinone derivative, and the suggested244 mechanism of the reaction, are depicted in Scheme 174. 

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