0-Silyl carbonyl compounds, synthesis

Hernandez, D., Larson, G. L. Chemistry of a-silyl carbonyl compounds. 9. Synthesis of tri- and tetrasubstituted olefins from a-silyl esters. J. Org. Chem. 1984, 49, 4285-4287. 

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. 

The hydrosilylation of carbonyl compounds by EtjSiH catalysed by the copper NHC complexes 65 and 66-67 constitutes a convenient method for the direct synthesis of silyl-protected alcohols (silyl ethers). The catalysts can be generated in situ from the corresponding imidazolium salts, base and CuCl or [Cu(MeCN) ]X", respectively. The catalytic reactions usually occur at room tanperature in THE with very good conversions and exhibit good functional group tolerance. Complex 66, which is more active than 65, allows the reactions to be run under lower silane loadings and is preferred for the hydrosilylation of hindered ketones. The wide scope of application of the copper catalyst [dialkyl-, arylalkyl-ketones, aldehydes (even enoUsable) and esters] is evident from some examples compiled in Table 2.3 [51-53],... 

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... 

The resulting radicals R efficiently alkylate BENAs (495) at the (3-C atom to give silyl derivatives of oximes (496) in good yields. The latter readily undergo deoximation in the presence of 1 M hydrochloric acid to give the corresponding carbonyl compounds (494). Thus, a convenient procedure was developed for the synthesis of carbonyl compounds (494) from secondary AN (493) through the intermediate terminal BENA (495) (527). 

Besides the allylation reactions, imines can also undergo enol silyl ether addition as with carbonyl compounds. Carbon-carbon bond formation involving the addition of resonance-stabilized nucleophiles such as enols and enolates or enol ethers to iminium salt or imine can be referred to as a Mannich reaction, and this is one of the most important classes of reactions in organic synthesis.104... 

Silyltitanation of 1,3-dienes with Cp2Ti(SiMe2Ph) selectively affords 4-silylated r 3-allyl-titanocenes, which can further react with carbonyl compounds, C02, or a proton source [26]. Hydrotitanation of acyclic and cyclic 1,3-dienes functionalized at C-2 with a silyloxy group has been achieved [27]. The complexes formed undergo highly stereoselective addition with aldehydes to produce, after basic work-up, anti diastereomeric (3-hydroxy enol silanes. These compounds have proved to be versatile building blocks for stereocontrolled polypropionate synthesis. Thus, the combination of allyltitanation and Mukayiama aldol or tandem aldol-Tishchenko reactions provides a short access to five- or six-carbon polypropionate stereosequences (Scheme 13.15) [28],... 

Studies on the electrochemical oxidation of silyl-substituted ethers have uncovered a rich variety of synthetic application in recent years. Since acetals, the products of the anodic oxidation in the presence of alcohols, are readily hydrolyzed to carbonyl compounds, silyl-substituted ethers can be utilized as efficient precursors of carbonyl compounds. If we consider the synthetic application of the electrooxidation of silyl-substituted ethers, the first question which must be solved is how we synthesize ethers having a silyl group at the carbon adjacent to the oxygen. We can consider either the formation of the C-C bond (Scheme 15a) or the formation of the C-O bond (Scheme 15b). The formation of the C Si bond is also effective, but this method does not seem to be useful from a view point of organic synthesis because the required starting materials are carbonyl compounds. 

Silyl enol ethers are powerful intermediates in organic synthesis. Reactions of silyl enol ethers with various electrophiles provide effective methods for the synthesis of various carbonyl compounds. In this section we will briefly touch on the electrochemical reactions of silyl enol ethers and related compounds. The electrochemical behaviour of silyl enol ethers is expected to be closely related to that of allylsilanes and benzylsilanes because silyl enol ethers also have a silyl group ft to the re-system. 

Mannich and related readions provide one of the most fundamental and useful methods for the synthesis of p-amino carbonyl compounds, which constitute various pharmaceuticals, natural products, and versatile synthetic intermediates.1271 Conventional protocols for three-component Mannich-type readions of aldehydes, amines, and ketones in organic solvents indude some severe side reactions and have some substrate limitations, espedally for enolizable aliphatic aldehydes. The dired synthesis of P-amino ketones from aldehydes, amines, and silyl enolates under mild conditions is desirable from a synthetic point of view. Our working hypothesis was that aldehydes could read with amines in a hydro-phobic reaction fidd created in water in the presence of a catalytic amount of a metal triflate and a surfactant to produce imines, which could then read with hydrophobic silyl enolates. 

T. Akiyama, J. Takaya, H. Kagoshima, One-Pot Mannich-Type Reaction in Water HBF4 Catalyzed Condensation of Aldehydes, Amines, and Silyl Enolates for the Synthesis of (5-Amino Carbonyl Compounds Synlett. 1999,1426-1428. 

Considerable attention has been devoted to the preparation and chemistry of a,/3-unsaturated carbonyl compounds, which are valuable intermediates in organic synthesis [125]. Acid-promoted hydrolysis of alkoxyallenes has therefore frequently been employed to prepare a variety of functionalized a,/8-unsaturated carbonyl compounds [12b, 41, 44, 60, 126]. A recent example is illustrated in Scheme 8.54with C-l-silylated alkoxyallene 218 as a convenient starting material for the synthesis of bicyclo[5.4.0]undec-4-en-2-one 221. Sequential deprotonation and silylation at the terminal C=C bond efficiently transformed 218 into a 1,3-disilylated allene which was converted into the acryloylsilane 219 under acidic conditions. A [3 + 4] annula-tion of intermediate 219 with lithium dienolate 220 furnished bicydic compound 221 in good yield [127]. 

Diethyl [(2-tetrahydropyranyloxy)methyl]phosphonate is useful in the Wlttig-Horner synthesis of enol ethers, which are intermediates in one-carbon homologations of carbonyl compounds. This procedure is an adaptation of a general method for making dialkyl hydroxymethylphosphonates. An 0-tetra-hydropyranyl derivative also has been made from dibutyl hydroxymethyl -phosphonate, and diethyl hydroxymethylphosphonate has been O-silylated with tert-butylchiorodimethylsilane and imidazole. Another useful congener in this series has been prepared by an Arbuzov reaction of methoxyethoxymethyl (HEM) chloride and triethyl phosphite. 

The preparation of a-hydroxy carbonyl compounds has been accomplished by the oxidation of enolates using both oxygen6 and MoC PyHMPA-(MoOPh).7 Acyl anion equivalents offer another route to this useful class of compounds. The procedure presented here for the synthesis of 6-hydroxy-3,5,5-tr1methyl-2-cyclohexen-l-one illustrates the use of MCPBA oxidation of an enol silyl ether as a method for obtaining an a-hydroxy enone. The procedure is a scaleup of a published synthesis. ... 

The most common method for the synthesis of phosphinopeptides is the addition of a nucleophilic, trivalent phosphorus species to a carbon electrophile, including conjugated double bonds, alkylating agents, imines, and carbonyl compounds. By analogy with the phosphite ester additions described above, the nucleophilic form of a phosphinic acid is the trivalent species, generated from the more stable, pentavalent PH derivative by deprotonation or by silylation (cf. Scheme 2). 

The reaction of nitroarenes with silyl end ethers and ketene silyl acetals in MeCNATiF with 1 equiv. of TASF, followed by in situ oxidation with Br2 or DDQ, provides an easy route to a-nitroaryl carbonyl compounds (Scheme l).12 The use of these compounds as reagents for the synthesis of arylacetic acids, propionic acids, indoles, 2-indolinones and other heterocyclic compounds has recently been described.88... 

Apart from the Takai method and titanium reagents such as 15, silyl reagents 16 and 17 frequently find application in the synthesis of vinylic silanes from carbonyl compounds. Reagent 16 can be utilized with aldehydes and non-enolizable ketones in a reaction analogous to the Peterson olefination Reagent 17 also reacts successfully with enolizable ketones.6... 

Unsaturated 1,5-dicarbonyl compounds. The phenylthioalkylation of silyl enol ethers of carbonyl compounds (9, 521-522) can be extended to the synthesis of unsaturated 1,5-dicarbonyl compounds. In a typical reaction the enol silyl ether of a ketone is alkylated with the unsaturated chloride 1 under ZnBr2 catalysis to give a homoallyl sulfide. Ozonolysis of the methylene group is accompanied by oxidation of the phenylthio group sulfoxide elimination results in an unsaturated 1,5-aldehydo ketone (equation I). Alkylation with 2 results in a methyl ketone (equation II). 

A new, direct route to 0,S-acetals is based in part on the ability of trimethylsilyl triflate to mediate synthesis of 0,0-acetals from carbonyl compounds and silyl ethers (10, 439). Thus reaction of 1 1 mixtures of a silyl ether and phenylthiotrimethylsilane with an aldehyde in the presence of catalytic to stoichiometric amounts of trimethylsilyl triflate can give 0,S-acetals in 37-93% yield. Acetone is amenable to this 0,S-ketalization, but reactions with cyclohexanone result mainly in 0,0-ketals. 

The carbanion derived from diethyl l-(trimethylsiloxy)-l-phenylmethanephosphonate 291 served as an acyl anion equivalent. Its reaction with carbonyl compounds afforded the silylated benzoin derivatives 292 (equation 182)443. This reaction was useful for the synthesis of 2-phenylbenzo[h]furans without laborious isolation of the intermediate benzoin. 

Diaryliodonium fluorides (Ar2IF) are effective reagents in arylation of silyl enolates.330 They have been used for the regiocontrolled synthesis of carbocycle-fused indoles (Scheme 26).331 Ph4BiF also serves for efficient regioselec-tive cr-phenylation of carbonyl compounds via silyl enolates.332 This approach can be extended to cr-alkenylation of carbonyl compounds. 

Vinyllithiums of type 663 (R2 = R3 = H) reacted with primary alkyl bromides, carbonyl compounds, carbon dioxide, DMF, silyl chlorides, stannyl chlorides, disulfides and phenylselenyl bromide142,970-979. Scheme 173 shows the synthesis of dihydrojasmone 669 from the corresponding 1,4-diketone. a-(Phenylsulfanyl)vinyllithium 665, prepared from phenyl vinyl thioether, reacted with hexanal and the corresponding adduct 666 was transformed into its acetoacetate. This ester 667 underwent a Carrol reaction to produce the ketone 668, which was transformed into the cyclopentenone 669 by deprotection either... 

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