Acetals silyl enol ethers

Systems usually fluonnated by electropositive fluorine reagents include acti-vated alkenes (enol ethers, enol acetates, silyl enol ethers, and enamines), activated aromatic systems, certain slightly activated carbon-hydrogen bonds, and selected organometallics. 

Adapted from Sasidharan and Kumar (257). Reaction conditions catalyst, 150 mg methyl trimethyl-silyl dimethylketene acetal (silyl enol ether), 10 mmol benzaldehyde, 10 mmol dry THF as dispersion medium, 10 mL temperature, 333 K reaction time, 18 h. Yield refers to the isolated product yield. Moles of product per mole of metal per hour. b The metal atom is substituted in the tetrahedral position. 

Keywords Catalyst, Alkylation, Allylation, Arylation, Mannich reaction, Carbon-nitrogen double bond, Imine, Nitrone, Aldimine, Organozinc reagents, Silyl ketene acetal, Silyl enol ether, Amine, (3-Amino acid... 

Coupling with Silyl Enol Ethers and Silyl Ketene Acetals. Silyl enol ethers can couple to the bromooxazinone to give both the syn and anti diastereomers. - The reaction can proceed via the Sn 1 mechanism discussed above or by a Lewis acid assisted Sn2 displacement of the bromide. The reaction conditions can be manipulated to favor the SnI (stronger Lewis acids, more polar solvents) or Sn2 path (weaker Lewis acids, less polar solvents) (eq 12 and eq 13). ... 

Fluorination. This salt is an effective fluorinating agent for enol acetates, silyl enol ethers, phenyl-substituted alkenes, mildly activated arenes, sulfides bearing a-H atoms, and certain carbanions. 

This section covers cyclizations to the pyrrole nucleus catalyzed by other metals (Ti, Mn, Ru, Pd, Pt, Zn, In). Dembinski and co-workers used zinc(II) chloride as ligand-free catalyst for the microwave-assisted cyclization of homopropargyl azides 26 to afford substituted pyrroles 27 (Scheme 8) [62]. A similar methodology for the synthesis of 2,4,5-trisubstituted pyrroles was described by Driver et al. employing substituted 1-azidobuta-l,3-dienes in a cyclization reaction using catalytic amounts of zinc(ll) iodide [63]. A three-component zinc-catalyzed one-pot cyclization of aromatic and aliphatic propargylic acetates, silyl enol ethers, and primary amines to substituted pyrroles has been described by Zhan et al. The reaction sequence includes propargylation of the silyl enol ether, amination, 5-exo-(7ig-cyclization, and isomerization [64]. Hiroya and co-workers have shown... 

In the absence of EIbN, the intermediate iminium cation can be captured with nucleophiles such as silyl ketene acetals, silyl enol ethers, enamines, and aUyl stannanes (eq 40). ... 

Carbon-carbon bond-forming reactions comprise the most important general class of synthetic transformations. Among the various methods used for the construction of these bonds, those based on electrophilic addition to eno-lates (and their analogs silyl ketene acetals, silyl enol ethers, enamines, azaenolates, etc.) are especially pervasive. Indeed, enolate chemistry has provided much of the foundation for the advancement of synthetic organic chemistry to its present state. Over the years, an enormous amount of effort has gone into the study of enolate chemistry. Much of this work has focused on the development of strategies for the asymmetric a-alkylation of monocarbonyl compounds. 

Mukaiyarna-Johnson AJdoJ- Lewis acid promoted condensation of silyl enol ethers with acetals ... 

Silyl enol ethers are other ketone or aldehyde enolate equivalents and react with allyl carbonate to give allyl ketones or aldehydes 13,300. The transme-tallation of the 7r-allylpalladium methoxide, formed from allyl alkyl carbonate, with the silyl enol ether 464 forms the palladium enolate 465, which undergoes reductive elimination to afford the allyl ketone or aldehyde 466. For this reaction, neither fluoride anion nor a Lewis acid is necessary for the activation of silyl enol ethers. The reaction also proceed.s with metallic Pd supported on silica by a special method[301j. The ketene silyl acetal 467 derived from esters or lactones also reacts with allyl carbonates, affording allylated esters or lactones by using dppe as a ligand[302]... 

Preparation of o,/3-Unsaturated Carbonyl Compounds by the Reactions of Silyl Enol Ethers and Enol Acetates with Ally Carbonates... 

Another preparative method for the enone 554 is the reaction of the enol acetate 553 with allyl methyl carbonate using a bimetallic catalyst of Pd and Tin methoxide[354,358]. The enone formation is competitive with the allylation reaction (see Section 2.4.1). MeCN as a solvent and a low Pd to ligand ratio favor enone formation. Two regioisomeric steroidal dienones, 558 and 559, are prepared regioselectively from the respective dienol acetates 556 and 557 formed from the steroidal a, /3-unsaturated ketone 555. Enone formation from both silyl enol ethers and enol acetates proceeds via 7r-allylpalladium enolates as common intermediates. 

Although ethereal solutions of methyl lithium may be prepared by the reaction of lithium wire with either methyl iodide or methyl bromide in ether solution, the molar equivalent of lithium iodide or lithium bromide formed in these reactions remains in solution and forms, in part, a complex with the methyllithium. Certain of the ethereal solutions of methyl 1ithium currently marketed by several suppliers including Alfa Products, Morton/Thiokol, Inc., Aldrich Chemical Company, and Lithium Corporation of America, Inc., have been prepared from methyl bromide and contain a full molar equivalent of lithium bromide. In several applications such as the use of methyllithium to prepare lithium dimethyl cuprate or the use of methyllithium in 1,2-dimethyoxyethane to prepare lithium enolates from enol acetates or triraethyl silyl enol ethers, the presence of this lithium salt interferes with the titration and use of methyllithium. There is also evidence which indicates that the stereochemistry observed during addition of methyllithium to carbonyl compounds may be influenced significantly by the presence of a lithium salt in the reaction solution. For these reasons it is often desirable to have ethereal solutions... 

Both the Af-fluorosulfonamides and the A -fluoroammonium salts are very effective in the fluormation of enol acetates, enamines, silyl enol ethers, and enolates (Table 2) The reactions are thought to proceed through a mechanism which involves Sf 2 attack on the fluorine atom, but contributions from electron-transfer pathways also exist [65, 68, 73, 75, 76, 79, 80, 81, 82]... 

Table 3. Reaction of (5)-3-Ben2yloxy-2-fIuoro-2-methylpropionaldehyde with Silyl Enol Ethers and Silyl Ketene Acetals [6]...

For some condensations with silylated substrates as starting compounds, trimethylsilyl inflate can be used as a catalyst [103, 104, 105] Atypical example of such a reaction is the aldol type condensation of silyl enol ethers and acetals catalyzed by 1-5 mol% of trimethylsilyl inflate [103] (equation 53)... 

Nitradon of the potassium enolates of cycloalkanones with pentyl n silyl enol ethers with nitroniiim tetraflnoroborate " provides a method for the preparadon of cydic ct-nitro ketones. Tnflnoroacetyl nitrate generated from tnflnoroacedc anhydnde and ammonium nitrate is a mild and effecdve nitradug reagent for enol acetates fEq. 2.411. ... 

The Lewis acid mediated addition of silyl enol ethers or silylketcne acetals to oc-alkoxyaldehydcs is the most versatile and reliable method of providing chelation control in aldol-type additions3. The stereochemical outcome is as predicted by Cram s cyclic model11 ... 

A combination of diethylzinc with sulfonamides 18 or 19 offers another possibility for the enantioselective acetate aldol reaction39,41. The addition of silyl enol ethers to glyoxylates can be directed in a highly enantioselective manner when mediated by the binaphthol derived titanium complex 2040. 

The Lewis acid induced reaction of silyl enol ethers and silyl ketene (thio)acetals with 4-acetoxyazetidinones is often used for introduction of a carbon substituent in the 4-position of the jS-lactam ring. Numerous examples are known, both with and without substituents at nitrogen, some of which are shown. 

Excellent /(-methyl selectivity is observed in the zinc chloride mediated condensation with 0-silyl enol ethers of 2-pyridinylmethyl thiopropionates109. Supposedly, chelate formation of zinc(II) with the sulfur and the nitrogen atom of the pyridinylmethyl thioester is essential for the high /(-selectivity. The geometry of the ketene acetal also seems to have some influence. 

Silyl enol ethers and ketene acetals derived from ketones, aldehydes, esters and lactones are converted into the corresponding o/i-unsaturated derivatives on treatment with allyl carbonates in high yields in the catalytic presence of the palladium-bis(diphenylphosphino)ethane complex (32). A phosphinc-free catalyst gives higher selectivity in certain cases, such as those involving ketene acetals. Nitrile solvents, such as acetonitrile, are essential for success. 

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