Sulfonate esters synthesis

Sulfonate Esters. Sucrose sulfonates are valuable intermediates for the synthesis of epoxides and derivatives containing halogens, nitrogen, and sulfur. In addition, the sulfonation reaction has been used to determine the relative reactivity of the hydroxyl groups in sucrose. The general order of reactivity in sucrose toward the esterification reaction is OH-6 OH-6 > OH-1 > HO-2. 

Sulfonate esters are especially useful substrates in nucleophilic substitution reactions used in synthesis. They have a high level of reactivity, and, unlike alkyl halides, they can be prepared from alcohols by reactions that do not directly involve bonds to the carbon atom imdeigoing substitution. The latter aspect is particularly important in cases in which the stereochemical and structural integrity of the reactant must be maintained. Sulfonate esters are usually prepared by reaction of an alcohol with a sulfonyl halide in the presence of pyridine ... 

Among other methods for the preparation of alkylated ketones are (1) the Stork enamine reaction (12-18), (2) the acetoacetic ester synthesis (10-104), (3) alkylation of p-keto sulfones or sulfoxides (10-104), (4) acylation of CH3SOCH2 followed by reductive cleavage (10-119), (5) treatment of a-halo ketones with lithium dialkyl-copper reagents (10-94), and (6) treatment of a-halo ketones with trialkylboranes (10-109). 

As noted in the preceding section, one of the most general methods of synthesis of esters is by reaction of alcohols with an acyl chloride or other activated carboxylic acid derivative. Section 3.2.5 dealt with two other important methods, namely, reactions with diazoalkanes and reactions of carboxylate salts with alkyl halides or sulfonate esters. There is also the acid-catalyzed reaction of carboxylic acids with alcohols, which is called the Fischer esterification. 

As in the synthesis of carboxylic esters, benzotriazolides may also be used in the preparation of aromatic sulfonic esters 101... 

The reaction of alkyl halides with metal nitrites is one of the most important methods for the preparation of nitroalkanes. As a metal nitrite, silver nitrite (Victor-Meyer reaction), potassium nitrite, or sodium nitrite (Kornblum reaction) have been frequently used. The products are usually a mixture of nitroalkanes and alkyl nitrites, which are readily separated by distillation (Eq. 2.47). The synthesis of nitro compounds by this process is well documented in the reviews, and some typical cases are listed in Table 2.3.92a Primary and secondary alkyl iodides and bromides as well as sulfonate esters give the corresponding nitro compounds in 50-70% yields on treatment with NaN02 in DMF or DMSO. Some of them are described precisely in vol 4 of Organic Synthesis. For example, 1,4-dinitrobutane is prepared in 41 -46% yield by the reaction of 1,4-diiodobutane with silver nitrite in diethyl ether.92b 1-Nitrooctane is prepared by the reaction with silver nitrite in 75-80% yield. The reaction of silver nitrite with secondary halides gives yields of nitroalkanes of about 15%, whereas with tertiary halides the yields are 0-5%.92c Ethyl a-nitrobutyrate is prepared by the reaction of ethyl a-bromobutyrate in 68-75% yield with sodium nitrite in DMF.92d Sodium nitrite is considerably more soluble in DMSO than in DMF as a consequence, with DMSO, much more concentrated solutions can be employed and this makes shorter reaction times possible.926... 

The group of Caddick has described the synthesis of functionalized sulfonamides by microwave-assisted displacement of pentafluorophenyl (PFP) sulfonate esters with amines (Scheme 6.159) [306]. Their ease of handling due to their higher crystallinity, along with their long shelf-life and their ability to react under aqueous reaction conditions, makes these an attractive alternative to sulfonyl chlorides. The microwave-assisted reaction of alkyl PFP esters with amines is a facile process which proceeds cleanly and in good yields with a number of different amines, including primary, secondary, and sterically hindered amines, and anilines. Optimum condi-... 

The authors used for the first time aromatic hydrotope solution system such as 50% sodium p-toluene sulfonate aqueous solution (NaPTSA), 40% sodium cumene sulfonate aqueous solution (NaCuS), and 20% sodium p-xy-lene sulfonate (NaXS) aqueous solution to perform Hantzsch ester synthesis. 

In the 1,4-dinucleophile - 1,2-dielectrophile approach the most common situation is where heteroatoms function as nucleophiles and 1,2-dicarbonyl compounds, 1,2-dihalides or sulfonate esters, a-halocarbonyl compounds, etc., as the dielectrophile component. Representative examples are given in equations (76)-(79). Condensation of hydrazine and its derivatives with 1,4-dicarbonyl compounds is the common situation in the 1,2-dinucleophile- 1,4-dielectrophile approach, and the vast majority of pyridazine derivatives are prepared in this way (e.g equations 80 and 81). Sulfur 1,4-dielectrophiles have been used in related processes, but the method is not readily adaptable to the synthesis of oxygen heterocycles. 

The most common synthesis of sulfonic esters, which can also be conducted on insoluble supports, is the sulfonylation of alcohols with sulfonyl chlorides under basic reaction conditions. Several examples of the sulfonylation of support-bound alcohols and of the reaction of support-bound sulfonyl chlorides with alcohols have been reported (Table 8.11). For the preparation of highly reactive sulfonates, bases of low nucleophilicity, such as DIPEA or 2,6-lutidine, should be used to prevent alkylation of the base by the newly formed sulfonate. This potential side reaction is, however, less likely to occur on cross-linked polystyrene than in solution, because quaternization on hydrophobic supports only proceeds sluggishly (see Section 10.2 and [155]). 

Various approaches have been used to prepare pyrroles on insoluble supports (Figure 15.1). These include the condensation of a-halo ketones or nitroalkenes with enamines (Hantzsch pyrrole synthesis) and the decarboxylative condensation of N-acyl a-amino acids with alkynes (Table 15.3). The enamines required for the Hanztsch pyrrole synthesis are obtained by treating support-bound acetoacetamides with primary aliphatic amines. Unfortunately, 3-keto amides other than acetoacetamides are not readily accessible this imposes some limitations on the range of substituents that may be incorporated into the products. Pyrroles have also been prepared by the treatment of polystyrene-bound vinylsulfones with isonitriles such as Tosmic [28] and by the reaction of resin-bound sulfonic esters of a-hydroxy ketones with enamines [29]. 

---