Acid chlorides adducts

Table 2 Preparative Applications of Acid Amide-Acid Chloride Adducts...

Isoquinoline can be reduced quantitatively over platinum in acidic media to a mixture of i j -decahydroisoquinoline [2744-08-3] and /n j -decahydroisoquinoline [2744-09-4] (32). Hydrogenation with platinum oxide in strong acid, but under mild conditions, selectively reduces the benzene ring and leads to a 90% yield of 5,6,7,8-tetrahydroisoquinoline [36556-06-6] (32,33). Sodium hydride, in dipolar aprotic solvents like hexamethylphosphoric triamide, reduces isoquinoline in quantitative yield to the sodium adduct [81045-34-3] (25) (152). The adduct reacts with acid chlorides or anhydrides to give N-acyl derivatives which are converted to 4-substituted 1,2-dihydroisoquinolines. Sodium borohydride and carboxylic acids combine to provide a one-step reduction—alkylation (35). Sodium cyanoborohydride reduces isoquinoline under similar conditions without N-alkylation to give... 

Addition compounds form with those organics that contain a donor atom, eg, ketonic oxygen, nitrogen, and sulfur. Thus, adducts form with amides, amines, and A/-heterocycles, as well as acid chlorides and ethers. Addition compounds also form with a number of inorganic compounds, eg, POCl (6,120). In many cases, the addition compounds are dimeric, eg, with ethyl acetate, in titanium tetrachloride-rich systems. By using ammonia, a series of amidodichlorides, Ti(NH2) Cl4, is formed (133). 

Various vinyl chloride adducts can be formed under acid-catalyzed Friedel-Crafts conditions. Vinyl chloride can add tertiary alkyl haHdes (54). It can... 

Because of the presence of an extended polyene chain, the chemical and physical properties of the retinoids and carotenoids are dominated by this feature. Vitamin A and related substances are yellow compounds which are unstable in the presence of oxygen and light. This decay can be accelerated by heat and trace metals. Retinol is stable to base but is subject to acid-cataly2ed dehydration in the presence of dilute acids to yield anhydrovitamin A [1224-18-8] (16). Retro-vitamin A [16729-22-9] (17) is obtained by treatment of retinol in the presence of concentrated hydrobromic acid. In the case of retinoic acid and retinal, reisomerization is possible after conversion to appropriate derivatives such as the acid chloride or the hydroquinone adduct. Table 1 Hsts the physical properties of -carotene [7235-40-7] and vitamin A. 

In the case of esters, carboxylate anions, amides, and acid chlorides, the tetrahedral adduct may undergo elimination. The elimination forms a ketone, permitting a second addition step to occur. The rate at which breakdown of the tetrahedral adduct occurs is a function of the reactivity of the heteroatom substituent as a leaving group. The order of stability of the... 

The intermediacy of ketenes in some enamine acylation reactions using acid chlorides was described above (386,387). Direct addition of ketene to enamines was studied simultaneously by several groups (414-420). The initially formed aminocyclobutanone products could be isolated in some instances, depending on the substitution of the initial enamine. Opening to give either the acylated enamine or the alternative vinylogous amide was found to occur spontaneously or on heating, particularly in adducts derived from enamines with an olefinic proton. 

Bicyclo[2.2.1]hepta-2,5-diene, nitrosyl chloride adduct, 46, 74 reaction with acetic acid to yield nortricyclyl acetate, 46, 74 Bicyclohexyl, 46, 61 Bicyclohexylidene, 47, 34 ejSO-e s-BlCYCLO[3.3.0]OCTANE-2-CAR-BOXYLIC ACID, 47, 10 Bicyclopentadienylidene, octa-chloro-, 46,93... 

The Lewis acid activates the acid chloride by forming an adduct with a chlorine atom bridge between carbon and aluminum. This chlorine bridge is similar to the one found in AI2 Clg ... 

Trapping experiments with electron deficient olefins such as acrylonitrile and 3-buten-2-one gave the expected 1,4-adducts from the proposed acylnickel intermediates. This provides strong support for the proposed mechanism. It was also demonstrated that allylic, vinylic and pentafluorophenyl halides could be cross-coupled with acid chlorides to give the corresponding ketones in good yields. 

The source of alcohol 50 is most probably acid-catalysed hydrolysis of 49 to the nitrosocarbonylbenzene intermediates 51, which, like acid chlorides, react with water to give benzoic acids 52 (Scheme 1 pathway (i)).159 Acylnitroso intermediates 51 were trapped as the Diels Alder adducts 53 in reactions in CH3CN/H20 and in the presence of cyclopentadiene. In CH3CN/10% H280, 53 was enriched in lsO... 

The Liebeskind group cross-coupled 4-chloro-2-cyclobutenone 69 with 2-tribuylstannyl-benzothiazole to synthesize a-pyridone-based azaheteroaromatics [48], The adduct 70 underwent a thermal rearrangement to afford a transient vinylketene 71, which then intramolecularly cyclized onto the C—N double bond of benzothiazole, giving rise to thiazolo[3,2-a]pyridin-5-one 72. In another case, 2-acetyl-4-trimethylstannylthizaole (73) was coupled with an acid chloride 74 to form the desired ketone 75 [49]. 

Phosphoryl substituted nitrile ylides have also been generated via the imidoyl chloride-base route using precursors 118 (R=Et, c-CeHn, f-Bu) prepared by the addition of an acid chloride to diethyl isocyanomethylphosphonate (120) (65). Treatment of the imidoyl chloride with triethylamine at —10 to 0 °C in the presence of dipolarophiles gave adducts in yields of up to 55% (e.g., 119 and 121) in ratios 1 4, 1 3 for R=Et and c = CgHn, respectively. 

The main renewable resource for L-carvone is spearmint oil (Mentha spicata), which contains up to 75% of this flavour chemical. There also exists a synthetic process for the manufacturing of L-carvone, which is based on (-t)-limonene, which is available as a by-product of the citrus juice industry as a major component of orange peel oil (Scheme 13.4). The synthesis was developed in the nineteenth century and starts with the reaction of (-t)-limonene and nitrosyl chloride, which ensures the asymmetry of the ring. Treatment with base of the nitrosyl chloride adduct results in elimination of hydrogen chloride and rearrangement of the nitrosyl function to an oxime. Acid treatment of the oxime finally results in l-carvone. 

The hrst step in the preparation of the antidepressant maprotiline (33-5) takes advantage of the acidity of anthrone protons for incorporation of the side chain. Thus treatment of (30-1) with ethyl acrylate and a relatively mild base leads to the Michael adduct saponihcation of the ester group gives the corresponding acid (33-1). The ketone group is then reduced by means of zinc and ammonium hydroxide. Dehydration of the hrst-formed alcohol under acidic conditions leads to the formation of fully aromatic anthracene (33-2). Diels-Alder addition of ethylene under high pressure leads to the addition across the 9,10 positions and the formation of the central 2,2,2-bicyclooctyl moiety (33-3). The hnal steps involve the construction of the typical antidepressant side chain. The acid in (33-3) is thus converted to an acid chloride and that function reacted with methylamine to form the amide (33-4). Reduction to a secondary amine completes the synthesis of (33-5) [33]. 

T. Kondo, H. Abe, and T. Goto, Efficient synthesis of 2a-glycoside of W-acetylneuraminic acid via phenylsulfenyl chloride adduct of 2-deoxy-2,3-dehydro-lV-acetylneuraminic acid methyl esier tetra-O-acetate, Chem. Lett., p. 1657 (1988). 

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