1-tetralones, hydrogenation

A1 Soufi, W., Eychmiiller, A., Grellmann, K. H., Kinetics of the Photoenolization of 5,8 Dimethyl 1 tetralone. Hydrogen transfer Tunnel Effects in the Excited Triplet State, J. Phys. Chem. 1991, 95, 2022 2026. 

Methoxy-8-chloro-l-tetralone hydrogenated with 10%-Pd-on-charcoal in 95%-ethanol in the presence of 1 equivalent of triethylamine until after ca. 15 min. the Ha-uptake practically ceases 5-methoxy-l-tetralone. Y 53-56%. J.W. Huffman, J. Org. Ghem. 24, 1759 (1959). 

To the cold acid chloride add 175 ml. of pure carbon disulphide, cool in ice, add 30 g, of powdered anhydrous aluminium chloride in one lot, and immediately attach a reflux condenser. When the evolution of hydrogen chloride ceases (about 5 minutes), slowly warm the mixture to the boiling point on a water bath. Reflux for 10 minutes with frequent shaking the reaction is then complete. Cool the reaction mixture to 0°, and decompose the aluminium complex by the cautious addition, with shaking, of 100 g. of crushed ice. Then add 25 ml. of concentrated hydrochloric acid, transfer to a 2 htre round-bottomed flask and steam distil, preferably in the apparatus, depicted in Fig. II, 41, 3 since the a-tetralone is only moderately volatile in steam. The carbon disulphide passes over first, then there is a definite break in the distillation, after whieh the a-tetralone distils completely in about 2 htres of distillate. 

In an alternative procedure the acids themselves undergo cyclization cataly2ed by hydrogen fluoride. y-Phenylbutyric acid [36541-31-8] can be cychzed to a-tetralone [29059-07-2] by this method ... 

The most recent, and probably most elegant, process for the asymmetric synthesis of (+)-estrone appHes a tandem Claisen rearrangement and intramolecular ene-reaction (Eig. 23). StereochemicaHy pure (185) is synthesized from (2R)-l,2-0-isopropyhdene-3-butanone in an overall yield of 86% in four chemical steps. Heating a toluene solution of (185), enol ether (187), and 2,6-dimethylphenol to 180°C in a sealed tube for 60 h produces (190) in 76% yield after purification. Ozonolysis of (190) followed by base-catalyzed epimerization of the C8a-hydrogen to a C8P-hydrogen (again similar to conversion of (175) to (176)) produces (184) in 46% yield from (190). Aldehyde (184) was converted to 9,11-dehydroestrone methyl ether (177) as discussed above. The overall yield of 9,11-dehydroestrone methyl ether (177) was 17% in five steps from 6-methoxy-l-tetralone (186) and (185) (201). 

Anhydrous hydrogen fluonde is a superior reagent for various cyclizations It converts aryl-substituted diethyl arylmalonates into tetralones in good yields [5] (equation 6)... 

When the 1-monoximes or dioximes of 4-acetyl-l-tetralones are hydrogenated in the presence of palladium, mixtures of diastereoisomeric 1-aminotetralones are formed. The m-aminoketone isomers readily form dehydrobenzoisoquinuclideines (3,4-disubstituted-1,4-dihydro-1,4-ethano-isoquinolines). Quaternary immonium salts prepared from these bicyclic imines are then converted by bases to bicyclic enamines [2,4-disubstituted-3-alkylidene-1,4-ethano-1,2,3,4-tetrahydroisoquinolines (25)]. 

Hydrogenolysis of aromatic carbonyls occurs mainly by conversion to the benzyl alcohol and its subsequent loss. If hydrogenolysis is desired, the usual catalyst is palladium 38). Hydrogenolysis is facilitated by polar solvent and by acid (55). For instance, hydrogenation of 3,3-dicarbethoxy-5,8-dimethoxy-l-tetralone (5) over 5% Pd-on-C gave 6 quantitatively 54) when hydrogen absorption ceased spontaneously. 

The present method developed by the submitters is the only practical process for preparation of l-cyano-6-methoxy-3,4-dihydronaphthalene. Birch and Robinson have reported that 6-methoxy-l-tetralone did not react with hydrogen cyanide or sodium acetylide. 

Figure 1.20. Asymmetric hydrogenation of 1-tetralones catalyzed by BINAP/l,4-diamine-Ru complex.

In chain reactions involving three termination steps (two uncrossed and one crossed) the quantity = 1c /(1c 1c )1/2 is frequently used to interrelate the cross-termination constant with the two uncrossed termination constants. For many different types of radical < is found to be about 1 (or alternatively, if the statistical factor of 2 favoring the crossed termination process is ignored in the definition of the rate constants, < 2). In the present reaction system —3-6, in agreement with the value obtained by Russell at 90°C. (26). The crossed termination constant itself is somewhat less than half the value found for kt. This seems reasonable since only one hydrogen atom will be available for transfer in the crossed termination, compared with the two that are available in the self-reaction of two tetralylperoxy radicals. In addition, steric hindrance to reaction should be greater for the crossed termination than for Reaction 8. The products are presumably cumyl alcohol, a-tetralone [3,4-dihydro-l(2H)naphthalenone], and oxygen (28). 

Tetralone has been prepared by a variety of methods, but the only practical procedures are relatively recent ones involving reduction of /9-naphthyl methyl ether with sodium and alcohol2 or with sodium and liquid ammonia,3 high-pressure catalytic hydrogenation of /9-naphthol,4 or catalytic oxidation of 2-tetralol by hydrogen transfer with ethylene.6... 

Ohkuma, T., Hattori, T, Ooka, H., Inoue T. and Noyori, R. B1NAP/1,4-Diamine-Ruthenium(ll) Complexes for Efficient Asymmetric Hydrogenation of 1-Tetralones and Analogues. Org. Lett. 2004, 6, 2681-2683. 

Tetrahydrocarbazole has been prepared from cyclohexanone phenylhydrazone, by the direct reaction of cyclohexanone with phenylhydrazine, and by the hydrogenation of carbazole. 1,2-Benzo-3,4-dihydrocarbazole has been prepared from the phenylhydrazone of a-tetralone and by the direct reaction of a-tetralone with phenylhydrazine. ... 

For examples of Ru-catalyzed hydrogenation of N-(3.4-dihydro-2-naphthalenyl)-acetamide see (a) Renaud. J.L., Dupau, P., Hay. A.-E.. Guingouain. M., Dixneuf P.H. and Brtmeau. C. (2003) Ruthenium-catalysed enantioselective hydrogenation of trisubstituted enamides derived from 2-tetralone and 3-chromanone Influence of substitution on the amide ai m and the aromatic ring. Adv. Synth. Catal.. 345. 230-238. 

The intramolecular C-H insertion reaction of phenyldiazoacetates on cyclohexadiene, utilizing the catalyst Rh2(S-DOSP)4, leads to the asymmetric synthesis of diarylacetates (Scheme 8). Utilizing the phenyl di azoacetate 38 and cyclohexadiene, the C-H insertion product 39 was produced in 59% yield and 99% ee. Oxidative aromatization of 39 with DDQ followed by catalytic hydrogenation gave the diarylester 40 in 96% ee. Ester hydrolysis followed by intramolecular Friedel-Crafts gave the tetralone 31 (96% ee) and represents a formal synthesis of sertraline (5). Later studies utilized the catalyst on a pyridine functionalized highly cross-linked polystyrene resin. ... 

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