Tosylhydrazones, formation

Tosylhydrazones, formation, 52,122 with methyllithium to give olefins, 51, 69... 

As is the case with Wolff-Kishner reactions, the application of tosylhydrazone reductions relies on the successful conversion of carbonyls to the requisite hydrazone derivatives (58). This usually presents no problem except with relatively hindered or deactivated ketones and, in fact, several failures of the methodology are traced to unsuccessful tosylhydrazone formation (i.e. for examples with 62, 63, -- diketone (9) in equation 4, and the substrate of entry 3, Table 2). 

The extent of olefin formation depends on the position of the functional group, " on the degree of a-substitution and on the concentration of the hydride (or deuteride). Usually olefin formation can be largely suppressed by increasing the concentration of lithium aluminum deuteride. With certain tosylhydrazones, however, such as the C-17 derivative (103), olefin (104) is a major product irrespective of the quantity of the reagent used. ... 

Olefin formation by reduction of keto derivatives via tosylhydrazones, 354 Olefin formation by reduction of thioketals, 356... 

The same type of reaction occurs in the work of Hauptman (76T1293), who, studying the chemistry of diethynylcarbenes, found that the pyrolysis of the lithium salts of diethynylketone tosylhydrazones 5 (140-150°C) in the presence of olefins leads to cyclopropanes. This process results in the formation of the corresponding 3-ethynylpyrazoles. The formation of l-p-tolylsulfonyl-3-alkynylpyrazoles from hydrazone runs in milder conditions (50°C, 14 h) (Scheme 24). 

A more promising procedure for the formation of alkenes from tosylhydrazones is represented by the Shapiro reaction It differs from the Bamford-Stevens reaction by the use of an organolithium compound (e.g. methyl lithium) as a strongly basic reagent ... 

Cyclic a,p-unsaturated ketones can be cleaved by treatment with base of their epoxy tosylhydrazone derivatives to give acetylenic ketones. The reaction can be applied to the formation of acetylenic aldehydes (R=H) by using the corresponding, 2,4-dinitrotosylhydrazone derivatives.Hydrazones (e.g., 47) prepared from... 

Scheme 5.15 shows some examples of the Shapiro reaction. Entry 1 is an example of the standard procedure, as documented in Organic Syntheses. Entry 2 illustrates the preference for the formation of the less-substituted double bond. Entries 3, 4, and 5 involve tosylhydrazone of a, (3-unsaturated ketones. The reactions proceed by a -deprotonation. Entry 6 illustrates the applicability of the reaction to a highly strained system. 

The Hurd-Mori reaction,where a tosylhydrazone is converted by thionyl chloride to the corresponding thiadiazole, involves the formation of a 1,2,3-thiadiazole-3,3-dioxide. In one example, this type of compound was isolated and subsequently deoxygenated with thiourea <1991PS175>. There have been no further reports of S-linked sulfoxide or sulfone derivatives of 1,2,3-thiadiazoles since the publication of CHEC-II(1996). 

Scheme 6.113 Formation of heptafulvalene (522), its methyl derivative 556 and its dimethyl derivatives 557 on co-thermolysis of the sodium salts of benzaldehyde and p-methylbenzaldehyde tosylhydrazones.

The formation of the bridged product 191 was investigated using the cyclopentadiene system as a model. Thus, the salt of the tosylhydrazone 198 was prepared and thermolyzed in order to examine three possible variants of rearrangements (equation 62)75. Analysis of the reaction products 200-202 and their transformations [e.g. the pyrolysis of bicyclic triene 202 to cA-8,9-dihydroindene 203 (equation 63) rather than to product 200 or 201] allows one to conclude that the mechanism involves a transformation of carbene 188 into diradical 204 which can be the precursor of all the products observed (equation 64)75. An analogous conversion takes place via radical 205 in the case of carbene 199 (equation 65). 

The reactivity of cage-annulated carbene (53) was found to depend markedly on the method of its formation." Pyrolysis of the corresponding tosylhydrazone sodium salt gave products of intramolecular CH insertion or H-abstraction. Photolysis of a diazirine precursor gave only azine products by reaction of the carbene with the precursor or diazo compound. Treatment of the m-dibromoalkane with BuLi gave products due to intermolecular insertion of the carbene into CH bonds of the solvent. 

Synthesis of novel bicyclic heterocyclic systems involving aziiidine ring formation has been described. The sodium salts of tosylhydrazones 11 decomposed by heating in benzene and gave aziridinopyrroloindoles 12 in yields up to 73% (equation 5) . Intramolecular cyclization of oxime ether 13 in the presence of base (for example, DBU) in acetonitrile afforded aziridinopyrrolidine 14 in yields up to 51% (equation 6) °. 

Cycloadditions to [6,6]-double bonds of Cjq are among the most important reactions in fullerene chemistry. For a second attack to a [6,6]-bond of a C q monoadduct nine different sites are available (Figure 10.1). For bisadducts with different but symmetrical addends nine regioisomeric bisadducts are, in principle, possible. If only one type of symmetrical addends is allowed, eight different regioisomers can be considered, since attack to both e - and e"-positions leads to the same product. Two successive cycloadditions mostly represent the fundamental case and form the basis for the regioselectivity of multiple additions. In a comprehensive study of bisadduct formations with two identical as well as with two different addends, nucleophilic cyclopropanations, Bamford-Stevens reactions with dimethoxybenzo-phenone-tosylhydrazone and nitrene additions have been analyzed in detail (Scheme 10.1) [3, 9, 10]. 

Shapiro Reaction Treatment of the tosylhydrazone of an aldehyde or a ketone with a strong base leads to the formation of an olefin, the reaction being formally an elimination accompanied by a hydrogen shift. This reaction is called Shapiro reaction. 

Various ot,p y,5-unsaturated 1,3-dipoles are known to undergo 1,7-cyclization by a 871-electrocyclization process (329,330), and the corresponding diazo compounds behave similarly. 5-Diazopenta-l,3-diene derivatives such as 285 (Scheme 8.70), generated in situ by thermolysis of the corresponding tosylhydrazone sodium salts, cyclize to form 1,2-diazepines (286) (331). Sharp and co-workers studied the mechanism, scope, and limitations of this transformation. It was found that cis-substitution about the y,8-double bond prevents the 1,7-cyclization and directs the system toward 1,5-cyclization (332,333) (i.e., formation of a 3//-pyrazole), and that the ot,(3-double bond can be part of a phenyl ring (334). In special cases, the y,8-double bond can be incorporated as part of an aromatic [287 288 (335)] or 2- or 3-thienyl ring as well (336). 

The iV-tosylhydrazone 199 undergoes cyclization upon treatment with a large excess of thionyl chloride (20 equiv) to produce the fully aromatic thiadiazole 200 without any of the expected dihydrothiadiazole <1996H(33)1759>. It is envisaged that the ester substituent is the controlling factor in the formation of the fully aromatic product via formation of the intermediate illustrated (Equation 134). 

Homofulvenes 8 (4-alkylidenebicyclo[3.1.0]hex-2-enes <25%), in addition to several hydrocarbon products (10-35%), are formed in the thermal decomposition of sodium salts of bicyclo[3.2.0]hept-2-en-6-one tosylhydrazones 5 at 130-150°C in both protic and aprotic solvents.8 The formation of homofulvenes 8 may be explained by the initial conventional ring contraction of the cyclobutylidenes 6 to the methylenecyclopropanes 7, the strain of which is released in a thermal rebonding to give homofulvenes 8.8... 

The present procedure uses sodium methoxide in methanol for generation of the tosylhydrazone salt. This procedure gives the highest reported yield and, unlike other procedures, also gives pure diazo compounds free from solvents. This vacuum pyrolysis method appears applicable to the formation of relatively volatile aryldiazomethanes from aromatic aldehydes. Table I gives yields of diazo compounds produced by this vacuum pyrolysis method. The yields have not been optimized. The relatively volatile diazo esters, ethyl a-... 

FORMATION OF DIAZO-COMPOUNDS BY VACUUM PYROLYSIS OF SODIUM SALTS OF TOSYLHYDRAZONES... 

---