Palladium catalysis sulfuration

The synthesis of thiepins 14 was unsuccessful in the case of R1 = i-Pr,79 but if the substituents in the ortho positions to sulfur arc /erf-butyl, then thiepin 14 (R1 = t-Bu R2 = Me) can be isolated in 99% yield.80 Rearrangement of diazo compound 13 (R1 = t-Bu R2 = H), which does not contain the methyl group in position 4, catalyzed by dimeric ( y3-allyl)chloropalladium gives, however, the corresponding e.w-methylene compound. The thiepin 14 (R1 = t-Bu, R2 = H) can be obtained in low yield (13 %) by treatment of the diazo compound with anhydrous hydrogen chloride in diethyl ether at — 20 C.13 In contrast, the ethyl thiepin-3,5-or -4,5-dicarboxylates can be prepared by the palladium catalysis method in satisfying yields.81... 

According to a recent Organic Syntheses procedure, fluoromethyl phenyl sul-fone, which can be prepared on a large scale [90] (Eq. 23), undergoes a number of useful reactions. A Wadsworth-Emmons-type procedure affords a-fluoro-vinylsulfones [91], which undergo tin-sulfur exchange under free radical conditions (Eq. 24). The products maybe protodestannylated [92],fluorinated [93],or coupled under palladium catalysis [94]. The difluoromethyl phenyl sulfone also shows some useful chemistry. 

Several studies have used palladium catalysis in the arylation of benzoxazoles. A palladium catalyst with a phosphine ligand allows their reaction with aryl mesylates without the requirement for acid or copper additives. In the reaction with arene-sulfonyl chloride, palladium is used in combination with copper. A plausible mechanism involves initial cupration of the benzoxazole followed by copper—palladium exchange and oxidative addition of the sulfonyl chloride to palladium to give (84). This intermediate may lose sulfur dioxide to give an aryl palladium species, which, on reductive elimination, yields 2-arylbenzoxazole. The arylation of benzoxazoles and benzthiazoles with aryl boronic acids is also catalysed by a combination of palladium... 

Metals and alloys, the principal industrial metalhc catalysts, are found in periodic group TII, which are transition elements with almost-completed 3d, 4d, and 5d electronic orbits. According to theory, electrons from adsorbed molecules can fill the vacancies in the incomplete shells and thus make a chemical bond. What happens subsequently depends on the operating conditions. Platinum, palladium, and nickel form both hydrides and oxides they are effective in hydrogenation (vegetable oils) and oxidation (ammonia or sulfur dioxide). Alloys do not always have catalytic properties intermediate between those of the component metals, since the surface condition may be different from the bulk and catalysis is a function of the surface condition. Addition of some rhenium to Pt/AlgO permits the use of lower temperatures and slows the deactivation rate. The mechanism of catalysis by alloys is still controversial in many instances. 

Bolm et al. [108] prepared a C2-symmetric bis (sulfoximine) as ligand for the copper-catalyzed hetero-Diels-Alder reaction. The stereogenic sulfur atom being located near the AT-coordinating atom, these structures were assumed to be promising for asymmetric catalysis. Their Hgand (79 in Scheme 43) was synthesized by palladium-catalyzed N-aryl imination from 1,2-dibromobenzene and (S)-S-methyl-S-phenylsulfoximine with Pd2dba3 in 70% yield. 

The effects of sulfur and carbon on catalytic reactions were described even before the concept of catalysis was Introduced. In his report about the famous experiments with the wire gauze safety lamp, Davy wrote in 1817 that A thin film of carbonaceous matter entirely destroys the igniting power of platinum, and a slight coating of sulfuret deprives palladium of this property. The big difference is that today we understand the phenomena by means of surface science. 

Williams, F L., Baron, K., Lead, Sulfur and Phosphorous Interactions with Platinum and Palladium Metal Foils . Journal of Catalysis, 40, 1975, ppl08-116. 

Palladium(O) catalysis also provides an excellent means for the overall displacement of halide with nitrogen or sulfur, taking place equally well at all three pyridine ring positions, i.e. not relying on the increased susceptibility to nucleophilic displacement at a- and 7-positions (section 5.3.2). 

There has been a review of the use of transition-metal catalysts in the formation of C—S, C—Se, and C—Te bonds." Copper catalysis enables the formation of unsymmetrical diaryl thioethers from two differently substituted aryl iodides using ethylxanthogenate as the source of sulfur. Initial formation of an aryl xanthate, such as (17), is followed by hydrolysis to the arenethiolate, which couples with the second aryl iodide." Copper catalysis has also been used in the methylthiolation of aryl halides by DMSO. The method requires the presence of a source of fluoride ions, such as zinc fluoride." In the presence of a palladium catalyst, the reaction of aryl and heteroaryl bromides with AgSCp3 gives the corresponding trifluoromethylsulfldes." ... 

Keywords Aromaticity Bromination Diels-Alder reaction Electrophilic substitution Furan Indophenine Isatin Metallatimi Palladium(O) catalysis Pyrrole S-oxidation Sulfur lone pair Thiophene numbering Viktor Meyer TT-System... 

---