Electrophiles sulfonium salts

Ylides 2 can be prepared in situ from the sulfonium salts 1 with sodium hydride. These ylides 2 react with electrophiles, for example, acetylenes, to give the new stable ylides 3, for R1 =R2 = Me as a mixture of the cis- and trans-isomer, otherwise as the trans-isomer only. Compounds 3 are stable in refluxing tetrahydrofuran for 1 hour, but heating without solvent at 170-200r C for 3 to 5 minutes results in a 1,4-rearrangement to give thiaazulenes 4 quantitatively, with the exception of R1 = R2 = Et, where the yield is 25%.98... 

Lewis acid-mediated ionization of acetals also generates electrophilic carbon intermediates that react readily with allylic stannanes.190 Dithioacetals can be activated by the sulfonium salt [(CH3)2SSCH3]+BF4,191... 

It can be seen in Table 1 that the lithographic sensitivity of the copolymers blended with 10% sulfonium salt increases as the percentage of latent electrophile (vinylbenzyl acetate) units is increased,. For a 50/50 copolymer the lithographic sensitivity is approximately 0.5 mJ/cm2 with a very high contrast of over 4. It should be noted however that aqueous development is no longer possible for the 50/50 copolymer for which some isopropanol must be added to the aqueous base developer. 

Use of a Difunctional Crosslinker. An alternate approach to chemically amplified imaging through electrophilic aromatic substitution is shown in Figure 6 below. In this approach a polyfunctional low molecular weight latent electrophile is used in a three component system also including a photoactive triaryl sulfonium salt and a phenolic polymer. In this case again crosslinking of the polymer is observed upon... 

Sulfonium salts of thiepanes are readily formed by electrophilic attack of alkyl halides on the cyclic thioether. Thus, thiepane (35) was found to yield a sulfonium iodide (123), which at elevated temperatures and in the presence of excess methyl iodide underwent ring cleavage to yield 1,6-diiodohexane (isolated as the 1,6-diphenoxy derivative Scheme 24) (53M1206). The alkoxysulfonium salt (124) formed by reaction of (35) with t-butyl hypochlorite (equation 23) was characterized as a stable hexachloroantimonate (67JOC2014). Reduction of thiepane 1-oxide (115) to thiepane has been achieved using an aqueous solution of NaHSC>3 (72JOC919). A hydroxysulfonium salt intermediate (125) has been proposed in the latter reduction reaction which provides a general method for sulfoxide reductions under mild conditions (equation 24). 

Sulfonium salts have been prepared on insoluble supports by S-alkylation of thioethers (Figure 8.2) only as synthetic intermediates. These compounds can be used to alkylate carboxylates [168] and halides [65], or as electrophiles for the Suzuki cross-coupling reaction (see Entry 7, Table 3.48 [169]). Sulfonium salts are also C,H-acidic, and can be used as intermediates for the synthesis of epoxides (Entry 7, Table 15.1 [170]). 

Apart from their fundamental role in sulfur ylide chemistry, sulfonium salts have found applications as soft electrophiles. In alkylation of ambident nucleophiles such as the enolates of [3-dicarbonyl compounds they led to selective C-alkylation [205],... 

The Pummerer reaction of sulfinyl compounds involves the formation of an a-functionalized sulfide [244, 245] from a sulfoxide. Acetic anhydride is commonly used as the electrophile, which adds to the sulfoxide to yield a sulfonium salt, and the rearrangement occurs through successive formations of an ylide (rate-determining step) and an alkylidene sulfonium, trapped by a nucleophile, or stabilized by a proton loss with formation of a vinyl sulfide. 

Some synthetically useful reactions not covered in the above sections should be mentioned. An unusual heterocyclization to form indole derivatives is found in the aminomercuration of allylenaminones (equation 130).261 Palladium(II)-catalyzed cyclizations of o-allyl- and -vinyl-anilines and amino-quinones are discussed elsewhere.30 Other electrophiles used to form dihydroindole derivatives include phenylselenenyl chloride216 and methyl(bismethylthio)sulfonium salts.231... 

For Pd-catalyzed cross-coupling reactions the organopalladium complex is generated from an organic electrophile RX and a Pd(0) complex in the presence of a carbon nucleophile. Not only organic halides but also sulfonium salts [38], iodonium salts [39], diazonium salts [40], or thiol esters (to yield acylpalladium complexes) [41] can be used as electrophiles. With allylic electrophiles (allyl halides, esters, or carbonates, or strained allylic ethers and related compounds) Pd-i73-jt-allyl complexes are formed these react as soft, electrophilic allylating reagents. 

The intermediate contains a tricoordinate sulfur cation or sulfonium salt. The chloride ion now attacks the other sulfur atom of this intermediate and two molecules of RSC1 result. Each atom of the original disulfide has formed an S-Cl bond. One sulfur atom was a nucleophile towards chlorine and the other an electrophile. 

Sulfonium salts are electrophiles nucleophilic substitution displaces a neutral sulfide leaving group... 

The generally accepted mechanism6 of Pummerer rearrangement is the one in which there is an initial attack on the sulfoxide oxygen atom by an electrophilic species, e.g., protonation or acylation. Acylation is followed by proton abstraction by a base from the a-carbon atom of the sulfoxide to form an ylide, which rapidly eliminates an acetate anion to form the a-sulfonium salt. Addition of acetate anion to the sulfonium intermediate completes the formation of the a-functionalized sulfide. Ylide formation from sulfoxonium salts is well recognized, and this aspect... 

A new approach to the synthesis of annulated sulfur heterocycles based on triflic anhydride-promoted electrophilic cyclization of the hetaryl-containing alkyl sulfides, including 1409, was elaborated <2003S1191>. The proposed method includes intermediate formation of sulfonylsulfonium salts 1410 followed by electrophilic attack on the aromatic ring (Scheme 271). Smooth demethylation of initially formed cyclic sulfonium salts 1411 by treatment with EtsN afforded a number of five- 1412 and six- 1413 membered fused sulfur heterocycles. Unexpected ring opening with formation of compound 1414 took place in the reaction of diethylamine with five-membered sulfonium salt 1411. 

The key to successfully using dimethyl sulfoxide as an oxidant for alcohols is to activate the sulfur atom prior to reaction with a nucleophilic alcohol function. This activation involves electrophilic attarlr upon the sulfinyl oxygen by a varied of electrophiles. The initial product formed when an alcohol does attack the activated dimethyl sulfoxide is known to be the sulfonium salt (1 Scheme 1). 

In the first step of the Swern oxidation, DMSO reacts with oxalyl chloride to give an electrophilic chlorosulfonium ion 36, carbon monoxide and carbon dioxide. Ion 36 then reacts with alcohol 37 to give a sulfonium salt 38, which is deprotonated by NEts and then converted to the aldehyde 40 and dimethyl sulfide. 

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