Amine triflate alkyl ester

Oxonium salts have been used as initiators in the polymerization of sulfides and amines as low-molecular-weight compounds (e.g. Et3OeBFJp)15,16) and as dicatio-nically living polyTHF 17,18) in the synthesis of diblock and triblock copolymers. Among alkyl esters and halides, tosylates, iodides, bromides, fluorosulfonates, and triflates were used in the polymerization of azetidines4,9,10 and aziridines 19,20). Methyl triflate forms the first alkylation product in the polymerization of 1-t-butyl-aziridine, which precipitates out of solution 19) ... 

Imidazolides can also be activated by N-alkylation with methyl triflate.116 Imidazolides react with alcohols on heating to give esters and react at room temperature with amines to give amides. Imidazolides are particularly appropriate for acylation of acid-sensitive materials. 

Thio- and selenoacetals and esters are excellent substrates for mild Friedel-Crafts reactions, because of the affinity of sulfur and selenium for copper (Sch. 23). Anisole was readily acylated with methylselenoesters 94 at room temperature with activation by CuOTf to affordpnra-substituted (> 95 %) derivatives 95 [50,51]. Mercury(II) and copper(II) salts, which were effective for the activation of selenyl esters for reaction with alcohols, amines, and water, were not effective for the Friedel-Crafts reaction. Aromatic heterocycles 96 could be acylated in high yields, and the alkylation product 100 was obtained from dibutylthioacetal 99 and anisole. Vedejs has utilized this methodology in the cyclization of 101 to afford 102 in 77 % yield [52]. This intramolecular variant did not require the use of the more reactive bis copper triflate-benzene complex. 

Alkylation of imino or amidine nitrogen and subsequent hydrolysis give rise to amines. For instance, alkylation of imine esters (104a) or amidine esters (104b) with dimethyl sulfate or methyl triflate, fol-... 

Masamune has documented the addition of optically active ester enolates that afford lanfi-aldol adducts in superb yields and impressive stereoselectivity (Eq. (8.3)) [4]. The generation of a boryl enolate from 8 follows from groundbreaking studies of ester enolization by Masamune employing dialkyl boryl tri-flates and amines [5]. Careful selection of di-n-alkyl boron triflate (di-n-butyl versus dicyclopentyl or dicyclohexyl) and base (triethyl amine versus Hiinigs base) leads to the formation of enolates that participate in the <2u//-selective propionate aldol additions. Under optimal conditions, 8 is treated with 1-2 equiv of di-c-hex-yl boron triflate and triethyl amine at -78 °C followed by addition of aldehyde the products 9 and 10 are isolated in up to 99 1 antv.syn diastereomeric ratio. The asymmetric aldol process can be successfully carried out with a broad range of substrates including aliphatic, aromatic, unsaturated, and functionalized aldehydes. 

The C-4 acids (183 and 184) have also been subjected to borane reduction conditions to afford alcohol 195 in 23-50% yield or 64% yield as the C-8 epimeric mixture (195 and 196, Scheme 29) [34, 49, 64]. The C-8 alcohol epimers 195 and 196 have been treated separately as a common intermediate for a number of C-4 derivatives including esters, ethers, and amines [34, 49, 64], Alcohols 195 and 196 was subjected to DCC, DMAP, and desired acid chloride or carboxylic acid in CH2CI2 affording ester analogs in 50-92% yield [64], Esters prepared include alkyl, aryl, and fluorenylmethyloxycarbonyl (Fmoc) protected amino acid derivatives (197 and 198) [64]. Ethers were prepared with various alkyl halides and Ag20 in CH3CN at 40 °C. Alkyl, allyl, and benzyl ethers were prepared in 45-80% yield (199 and 200) [34,64]. Alcohols 195 and 196 were then activated to the triflates and displaced by a variety of amines by treatment with trifluoromethanesulfonic anhydride and desired amine in 22% - quantitative yield over two steps (201 and 202)... 

Pyridine can become involved in nucleophilic substitution when very reactive trifiates are being synthesized. One approach to minimize this disadvantage is to replace it with sterically hindered bases, such as 2,6-di-f-butyl-4-methylpyridine, 2,4,6-trisubs-tituted pyrimidines, or nonnucleophilic aliphatic amines (usually W,W-diisobutyl-2,4-dimethyl-3-pentylamine). No salt formation appears to take place under these conditions. The triflic anhydride seems to be the direct triflating agent and the base only neutralizes the triflic acid formed. Numerous alkyl triflates have been prepared in the literature by the above method. Some recent examples of triflates prepared from alcohols are illustrated in eqs 2 and 3. As an exception, 2,6-dinitrobenzyl alcohol does not react with Tf20 although similar sulfonyl esters could be prepared. ... 

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