Reduction of Organic Compounds by Lithium in Low Molecular Weight

Robert A. Benkeser, Gene Schroll, Dale M. Sauve. J. Am. Chem. Soc. , 1955, 77 (12), pp 3378–3379. DOI: 10.1021/ja01617a066. Publication Date: June 1...
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undepressed when mixed with an authentic sample of 3methyl-6-pyridazone .7 Reaction of Diethyl Acetylsuccinate with Semicarbazide. -A solution of semicarbazide hvdrochloride (11.2 8.. 0.1 mole) and hydrated sodium acetate (13.6 g., 0.i m;lk) in 100 ml. of water was mixed with a solution of diethx-1acetylsuccinate (25.6 g., 0.1 mole) in 100 ml. of ethanol. There was no heat evolved on mi,.ing and the mixture was then

heated a t reflux for one hour, after which the solvents were removed under vacuum. The residue was crystallized from 300 ml. of water t o give 16 g. (59% yield) of material melting at 115-116". Recrystallization did not raise thismelting point. Anal. Calcd. for CllHinSu06: C, 48.35; H, 6.97; S , ld.38. Found: C, 48.69; H , 7.13; N, 15.64. SEW YORK11, SEW YORK

Reduction of Organic Compounds by Lithium in Low Molecular Weight Amines. 11. Stereochemistry. Chemical Reduction of an Isolated Nonterminal Double Bond

saturated center. T o our knowledge this is thc first instance of a chemical reduction not involving a terminal double bond. This reduction was extended to the olefin series where i t was found that cyclohexene could be reBY R O B E R T A . BENKESER, GESE SCHROLI, A N D D A L E &I. duced to cyclohexane, and 1-ethylcyclohexene t o SALVE ethylcyclohexane. RECEIVED DECEMBER 1I , 1 9 d l It obviously could be argued t h a t the reductions It was demonstrated in a previous publication' observed in the above instances were not actually from this Laboratory t h a t lithium, dissolved in chemical in nature but rather were brought about methyl, ethvl- and n-propylamine, constitutes a by the hydrogen produced froin the reaction of powerful reducing medium for aromatic hydrocar- lithium with the solvent. Admittedly the latter bons. I n every case thus far investigated this rea- reaction is much more pronounced with amine solgent has been found to effect far more extensive re- vents than with ammonia. T o test this possibility, ductions than had previously been noted with so-, the quantity of lithium absorbed per mole of cyclohexene reduced was determined. The average updiuni in liquid It had been established conclusively bv Camp- take of metal in three such determinations was 1.8 bell3 t h a t reduction of acetylenes by sodium in liq- gram atoms per mole of cyclohexene. This indiuid ammonia involved a trans addition of hydrogen. cated that reduction of the olefin was proceeding Reductions carried out in the lithium-amine sys- by some type of chemical addition of metal. Such tem were so markedly different from those effected :in addition requires two equivalents of metal per by sodium in ammonia t h a t i t was deemed expe- equivalent of olefin. If the reduction was being dient to determine the stereochemistry of this new effected simply by hydrogen generated from reacreducing medium. An approach similar to that em- tion of lithium with solvent, no constant ratio of ployed by Campbell was utilized successfully in metal to olefin would exist. the present study. Experimental When samples of 3-octyne and 5-decyne were Preparation of 3-Octyne and 5-Decyne.-Reaction of 1~ D with sodium amide in liquid reduced a t -78" by lithium dissolved in ethyla- hexyne (b.p. 71", W ~ 1.3989) mine, good yields of trans-3-octene and trans-5-dec- ammonia and subsequently with butyl bromide gave a 70% of 5-decyne,S b.p. 176" a t 748mm., X ~ 1.4311. D When ene were obtained. The configuration of the prod- 1-ield ethyl bromide was used in the reaction sequence, a 50% ucts was established by comparing their freezing yield of 3-octyne3 (b.p. 132' a t 751 mm., n 2 0 ~1.4258) was points and infrared spectra with authentic samples obtained. Reduction of 5-Decyne with Lithium in Ethylamine. A . of both cis- and trans-3-octene and 5-decene. These At - 78'.-A Dry Ice-carbon tetrachloride-chloroform irere prepared either by catalytic hydrogenation of slush was placed around a 500-cc. flask which contained a the corresponding acetylenes (cis product), or by re- blue solution of 1.73 g. (0.25 g. atom) of lithium in 300 cc. of ducing these acetylenes with sodium in liquid arn- ethylamine. To the chilled solution was added 13.8 g. (0.1 mole) of 5-decyne over several minutes. The stirred inonia (trans product). turned gray after four hours; nine grams of methDuring the course of reducing 5-decyne at 1 i " solution anol was then added and the cooling bath was removed after it was observed t h a t appreciable quantities of n- the hydrolysis of the excess lithium was completed. The decane were obtained, particularly if lithium in solvent was permitted t o evaporate partially, petroleum large excess of two equivalents was einploved. ether (b.p. 35-40') as well as water was added, and the twophase system was filtered through Celite. The hydrocarThis was in sharp contrast to the same reduction bon layer was separated, washed with water and dilute acid, by sodium in liquid ammonia which stopped cleanly and dried over calcium chloride. The solvent was distilled off and the residue was fractionally distilled with a Vigreux a t the olefin stage. Obviously the lithium-amine outside diameter, three feet long) t o give 7.8 reagent is capable of reducing a non-terminal 1111- column (6 mm. ~-

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(1) R. 4. Benke-ci-. K.IC. Kobiii,.,jn, 13. hl S d i i v r ati(l 0 I T 'I'hoiii,~., 'l'iirs J O I T R N A I , , '7'7, 3230 ( 1 9 5 5 ) . ( 2 ) For e x r e i l e n i reviews o n t h i ? tupic see G. W. \Vait, Chejts. I