Thiocarbonyl ylides generation

Acidic compounds of type R—XH, which are able to protonate thiocarbonyl ylides, also undergo 1,3-addition leading to products of S,S-, S,0-, or 5,A-acetal type (Scheme 5.20). Thiophenols and thiols add smoothly to thiocarbonyl ylides generated from 2,5-dihydro-l,3,4-thiadiazoles (36,38,86,98,99). Thiocamphor, which exists in solution in equilibrium with its enethiol form, undergoes a similar reaction with adamantanethione (5)-methylide (52) to give dithioacetal 53 (40) (Scheme 5.21). Formation of analogous products was observed with some thiocarbonyl functionalized NH-heterocycles (100). 

Reaction with acetylenic dipolarophiles represents an efficient method for the preparation of 2,5-dihydrothiophenes. These products can be either isolated or directly converted to thiophene derivatives by dehydration procedures. The most frequently used dipolarophile is dimethyl acetylenedicarboxylate (DMAD), which easily combines with thiocarbonyl ylides generated by the extrusion of nitrogen from 2,5-dihydro-1,3,4-thiadiazoles (8,25,28,36,41,92,94,152). Other methods involve the desilylation (31,53,129) protocol as well as the reaction with 1,3-dithiolium-4-olates and l,3-thiazolium-4-olates (153-158). Cycloaddition of (S)-methylides formed by the N2-extrusion or desilylation method leads to stable 2,5-dihydrothiophenes of type 98 and 99. In contrast, bicyclic cycloadducts of type 100 usually decompose to give thiophene (101) or pyridine derivatives (102) (Scheme 5.37). 

Thiocarbonyl ylides, generated from the thermolysis of 2,5-disubstituted A3-l,3,4-thiadiazolines, may be trapped by ketenes to give oxathiolane derivatives, as shown in Scheme 39. The reaction appears to be a useful way of obtaining unsaturated derivatives... 

The synthesis of the five-membered cyclic dithioate 65 is shown in Scheme 16 [52,53]. The parent y-dithiolactone (3,4,5-trihydrothiophene-2-thione) (146) is prepared by thionation of the corresponding thiolactone 147, as shown in Eq. 32 [74]. Preparations for the l,3-dithiolane-4-thione derivatives 148 have been reported [75,76] (Scheme 32). It was proposed that the adamantanespiro compound 148a was formed by a reaction of the thiocarbonyl ylide, generated from 149 by extrusion of N2, with carbon disulfide [75]. 

Thiocarbonyl Ylides. Thiocarbonyl ylides generated by thermolysis of 2,5-dihydro-1,3,4-thiadiazoles can be intercepted by 1 to give 1,3-dithiolane derivatives (so-called Schdnberg products)." Both aromatic and cycloaliphatic S-methylides undergo [2-i-3]-cycloadditions with 1 regioselectively. Whereas 39 yields the sterically crowded adduct 40, adamantane S-methylide (41) affords the less hindered 1,3-dithiolane (42) (eq However, the reaction of 8, the... 

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