To cinnamic ester

Coupling reactions. Coupling reactions lead to cinnamate esters and styrenyl ketones. Arylstannanes and arylsilanols can be used as substrates. Oxidative cross-coupling of 2-hydoxybiaryls with alkenes under aeration gives benzochromene derivatives." ... 

As a result of luminescence-quenching experiments, Curme, Natale and Kelley 46> concluded that cinnamate did not accept singlet energy from Michler s ketone or picric acid at 77° K. Again it was suggested that triplet energy was donated by the sensitizer to cinnamate ester, which then underwent dimerization-type crosslinking. 

The product of addition to cinnamic ester is an obvious abnormal product formed by llte reaction of a Grignard rcagenl. Such products are formed by the reaction ol Iree radicals, which since they tire uncharged kx>k for radical stabilization rather titan lor charge stabilization. The following types of abnormal products are considered as being formed by radical recombination even if the direct proof of the radical mechanism has not been given for all eases. 

Aminochlorination. The dichloro compound effects addition to cinnamic esters in combination with the sodium salt of 2-nitrobenzenesulfonamide. 

Imidazo-fused quinazolines have been prepared from A (allylcarbamoyl)-anthra-nilonitriles by ultrasonically treated BY [449], an approach that has also been used for the synthesis of other anellated heterocycles [450] In addition, BY catalyzed the regioselective cycloaddition of nitrile oxides 308 (Fig. 76) to cinnamic esters 309 to afford predominantly 310 (BY9) [451]. Similar reactions have been investigated employing vinyl pyridines [451,452]. 

The cinnamate ester prepared as above (23.2 g. 79 mmol) was added as a solid slowly to refluxing xylene (500 ml) over a period of 3 h at a rate that prevented accumulation of unreacted azidocinnamate in the solution (monitored by gas evolution through a gas bubbler). The solution was refluxed for an additional 2 h after gas evolution ceased. The reaction mixture was cooled and the solvent removed in vacuo. The residue was recrystallized from methanol to give pure product (20.7 g, 99% yield). 

Economic Aspects. There are no pubhshed production figures for cinnamic acid. Most of the manufactured acid is consumed internally to generate a series of cinnamate esters for flavor and fragrance appHcations. With this in mind, it was possible to estimate a 1990 usage in the range of 175 metric tons. The cinnamic acid that does find its way into the marketplace has been sold for 12—14/kg in dmm quantities. 

The addition of benzonitrile oxide to acrylic acid gave only the 4-carboxylic acid (441) (59MI41601), while addition to cis- and trans-cinnamic esters gave cis and trans diastereomeric pairs of 4-carboxylic acids (442) (Scheme 100) (59MI41600). Arbisono repeated the experiment and, when methyl c/s-cinnamate was used, in addition to the 4-carboxylic acid some 5-carboxylic acid (442) was isolated (66MI41600). The reaction of vinyl bromides with benzonitrile oxide yielded only an isoxazole and not a bromoisoxazoline (Scheme 101) (78JCR(S)192). 

An interesting footnote to the general synthesis of macrocyclic crown ether-type esters is found in the work of Ors and Srinivasan . These workers used cinnamate esters and diesters as precursors to large ring lactones. Depending on orientation, either truxil-... 

The addition of diazomethane to unsaturated esters (1), as ethyl acrylate, methyl crotonate and ethyl cinnamate, was investigated by Auwers who showed that the primary addition product is a A -pyrazoline (2) which rearranges spontaneously to the conjugated A -pyrazoline (3). 

Charrette and Lebel [24] developed a catalytic enantioselective cyclopropa-nation of trans-cinnamate esters with diazomethane. Their procedure involves an argon-flow-mediated diazomethane addition, leading to high yields (up to 80%) in products with up to 80% ee, by using the bis(oxazoHne) arising from phenylglycinol (Scheme 10). 

This version of the Wadsworth-Emmons reaction has been used in the scaled-up syntheses of drugs and drug-candidate molecules. For example, it is used to prepare a cinnamate ester that is a starting material for pilot plant synthesis of a potential integrin antagonist.263... 

Recently, Scott et al. have reported that a Cu complex bearing an axially chiral ligand (49) is an excellent catalyst for aziridination of 2,2-dimethylchromene and cinnamate esters (Scheme 36), though it is also less efficient for the reactions of simple olefins.157,158 On the basis of DFT investigation of the nitrenoid intermediate (50), one of the oxygen atoms of the A -sulfonyl group has been proposed to be interacting with the nitrene N-atom.158... 

Optimal selectivities of cinnamate aziridines are provided by the phenyl-substituted bis(oxazoline) (55d). In contrast, /ra .v-p-mcthyl styrene proved to be most selective with ferf-butyl substituted 55c and acetonitrile as solvent, Eq. 56, conditions that afford the cinnamate ester-derived aziridine in only 19% ee. Styrene is a poor substrate for this catalyst and provides the opposite antipode as the major enantiomer from the same ligand, Eq. 57. 

The reactivity of phenylacetic esters with electron-deficient alkenes is generally fairly poor, even under phase-transfer catalytic conditions. The reaction with cinnamic esters is often accompanied by hydrolysis and the yield of the adduct with chalcone is generally <60% [10]. The activity of the methylene group towards alkylation has been enhanced by the initial complexation of the phenyl ring with chromium tricarbonyl (see Section 6.2), but this procedure has not been applied to the Michael reaction. 

The Heck reaction on polymer-bound iodoarenes is assisted by the addition of a catalytic amount of tetra-n-butylammonium bromide and has been employed in the synthesis of 4-carboxycinnamic esters and amides [33], and 4-aminosulphonyl-cinnamic esters [34], It has also been reported that the presence of an equimolar equivalent of benzyltriethylammonium chloride aids the Pd(II)-mediated reaction of A -acyl-2-iodoanilines with vinylidene carbonate, which leads to A -acyl-2-hydroxy-indolines providing a convenient route to the indoles (80-90%) [35], The catalysed reaction of 2-hydroxy- and 2-tosylaminoiodobenzene with 1,2-dienes produces 1,2-dihydrobenzofurans and 1,2-dihydroindoles, respectively [36]. 

Heck reactions of arenediazonium salts can be conveniently carried out with [Pd(OAc)2] in ethanol. This method was extended to the one-pot sequential diazotation and allylation of aniUnes (Scheme 6.7). The latter were converted to the corresponding diazonium salts at 0 °C with NaNOa + 42 % HBF4. Ethyl acrylate and [Pd(OAc)2] were added and the reaction mixture was heated on a water bath for 1 h. The corresponding cinnamate esters were obtained in 65-80 % yield [22],... 

This method of obtaining cinnamate esters directly from anilines has useful features. It is simple and the yields are comparable to those obtained with isolated diazonium salts. However, in this case isolation of the latter is not required, what is most beneficial in case of unstable diazonium salts. 

Refluxing with zinc in ethanol reduced a-bromocinnamic acid to cinnamic acid in 80% yield [997]. Allylic chlorines in y,y,y-trichlorocrotonic acid were partly or completely hydrogenolyzed by zinc and sodium amalgam [5/9]. Hydrogenolysis of allylic bromine in oc, -unsaturated esters with zinc in acetic acid gave predominantly, y-unsaturated esters in 65-97% yields [998]. 

Much more conveniently, even a,)S-unsaturated esters can he transformed into a,)S-unsaturated alcohols by very careful treatment with lithium aluminum hydride [1073], sodium bis(2-methoxyethoxy)aluminum hydride [544] or diiso-butylalane [1151] (Procedure 18, p. 208). An excess of the reducing agent must be avoided. Therefore the inverse technique (addition of the hydride to the ester) is used and the reaction is usually carried out at low temperature. In hydrocarbons as solvents the reduction does not proceed further even at elevated temperatures. Methyl cinnamate was converted to cinnamyl alcohol in 73% yield when an equimolar amount of the ester was added to a suspension of lithium aluminum hydride in benzene and the mixture was heated at 59-60° for 14.5 hours [1073]. Ethyl cinnamate gave 75.5% yield of cinnamyl alcohol on inverse treatment with 1.1 mol of sodium bis(2-methoxy-ethoxy)aluminum hydride at 15-20° for 45 minutes [544]. 

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