STUDIES IN THE CYCLOPENTADIENE SERIES.[I.]: 2, 3-DIACETYL-5

[I.]: 2,3-DIACETYL-5-NITROCYCLOPENTADIENE. William J. Hale. J. Am. Chem. Soc. , 1912, 34 (11), pp 1580–1590. DOI: 10.1021/ja02212a018. Publication ...
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WILLIAM J. HALE.

with violent ebullition. It was, therefore, necessary to dilute the phenylhydrazine with alcohol to secure a smooth reaction. One gram of the lactam was added to a solution of 1.25 cc. phenylhydrazine in 25 cc. alcohol, and the mixture boiled gently for an hour. The lactam slowly dissolved, and a crystallin product soon separated from the solution, causing violent bumping. When the mixture had cooled sufficiently, the crystals were filtered out, washed thoroughly with cold alcohol, dried to constant weight at IIO', and analyzed. Calculated for C,,H,,ON,:

N, 18.55. Found: N, 18.72.

The compound forms pale brownish needles, melting a t 249.5-250.5' (cor.). 2,4- Diketo - 1,2,3,4 - tetrahydro - I ,~?,T - naphthoisotriazine(2,q-DihydroxyI J, 7-nafihthozsotrzazie).-

Equal weights of ~-aminoquinoline-6-carboxylic acid and urea were fused together. Water and ammonia were evolved during the fusion and, on cooling, a brown, hard mass was obtained. This was pulverized and extracted with cdd, dilute sodium hydroxide solution, which dissolved out the dihydroxytriazine. From this solution the triazine was precipihted by carbon dioxide, or acetic acid, as a yellowish or brownish powder mefting above 300°, and difficultly soluble in water or in alcohol. Calculated for C,,H,O,N,:

N, 19.72. Found: N, 19.54.

With diazotized benzidine, the compound gives a dark red solution; and with diazosulfanilic acid, in alkalin solution, a deep red one, NEW YORKCrrv

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STUDIES IN THE CYCLOPENTADIEEPE SERIES.

p.]

2,3-DIACETYL-5-RITROCYCLOPERTADIENE. BY WILLIAM J. II.4LC Received August 30, 1912.

The discovery of five-membered carbocyclic compounds dates from 1885, when Roscoe* first obtained a hydrocarbon of the formula C,,H,, position of crude phenol a t a red heat. He succeeded also ti.lp; this same hydrocarbon from the first fractions of coal tar. The simpler form of the hydrocarbon, C,H,, was known to Roscoe and found t o polymerize readily into the dimolecular form. It was isolated later from petroleum by Etard and Lambert2 and called by them "pyropentylene ;" the dimolecular form received the name ' ' dippopentylene. " Nietzki and R o ~ e m a n n ,arguing ~ from analogy with benzene and its J . C k .Soc., 47,669 (1885);A n n . , 232, 348 (1886). 3

Com-pt. rend., 112, 945 (1891). Rev., 22, 916 (1889); see also Auerbach, Ibid., 36, 933 (1903).

STUDIES IN THE CYCMPENTADIENE SERIES.

I.

1581

.

three double linkings, suggested the name “pentol ” for a five-carbon ring compound of this class. The constitution of this simpler hydrocarbon, C,H,, was established by Kramer and Spilkerl and shown to be a cyclopentadiene. It is a liquid boiling a t 41O and polymerizes readily into a dicyclopentadiene boiling a t 170’. This latter dissociates again, upon heating, into the monomolecular form: HC ;CH

‘ I 2 ,CH I’ HC,

\J

CH,

-

HC-CH

I

I/

HC

- HC- CH I II

CH-HC

v

CH,

CH

v CH,

These investigators found that the portion of coal tar distilling between 160-175 O gave, when redistilled, this monomolecular or lower boiling form; a reaction which takes place no doubt during the so-called “cracking process” in the distillation OK heavy petroleum oils. Complete data on the decomposition of the cyclopentadiene ring was furnished by J. Thiele.2 The addition of bromine first led to a 1,4-dibromocyclopentene and this, by the action of potassium permanganate, gave a dibromodihydroxycyclopentane, which finally could be oxidized by chromic acid into a,pdibromoglutaric acid. Pure cyclopentadiene, however, is almost imp.ossible to prepare, owing to the great ease with which it polymerizes even a t ordinary temperatures. The recent work of Auwers and Eisenlohrs upon molecular dispersion points out this fact conclusively. Recently M. Weger4has suggested the possible formation of naphthalene from coal tar products by the passing of cyclopentadienes through red hot tubes. The presence also of cyclopentadiene in illuminating gas has been detected by R. Ross and J. Race., The first synthesis of the pentamethylene (cyclopentane) ring was accomplished as early as 1887by W. H. Perkin, Jr.,B through the action of trimethylene bromide upon sodium ethyl malonate. Cyclopentadienqs, however, were not synthesized till 1894,when Dieckmann’ condensed oxalic ester with glutaric ester by means of sodium ethylate. The constitution he finally assigned to the product accorded with a 2,3dihydroxy- I ,4-dicarbethoxy-cyclopentadiene : H 0 . C - C.OH

/I

C,H,OO.C

* Ber., 29, 552 (1896).

It

C.COOC,H,

XI

‘ At&., 314, 296 (1901).

3

Ber., 43, 806 (1910);see also Eijkman, Chem. Cendr., 1907, 11, 1205.

‘ 2. angm. Chem., 22, 338 (1909). 5

J . SOC.Chem. Ind., 29, 604 (1910).

8

/. Chem. SOC.,51, 240 (1887);Ibid.,

7

65, 590 (1894);Bw., 35, 2118 (1902). Ber., 27, 965 (1894);Ibid., 32, 1931 (1899);Ibid., 35, 3 ~ 0 1( 1 9 2 ) .

1582

WILLIAM J. HALE.

Various derivatives of the cyclopentadiene ring have been prepared from 5-membered ring compounds. Thus Komppa' obtained a 5,5-dimethyl- I , 4-dicarboxycyclopentdiene from dihydroxyapocamphoric acid ; and again a number of aryl derivatives have been prepared from the corresponding hydroxycydopentanones by the action of alcoholic hydrogen chloride.' A study of dicyclopentadienes has recently been published by H. n'ieland,3 in which is described a number of the addition reactions. Possibly the most interesting synthesis of cyclopentadienes is that of Duden and Freydag.' Two molecules of levulinic ester were made to condense by the action of sodium ethylate, and thus gave a 4-methyl-1carbethoxy-cyclopentadiene-2-propionicester : HC - C.CH,.CH,.COOC,H6 c"?.C

C.COOC,H,,

v CII,

The work of Thiele5 in this field brought to light that highly colored class of compounds, formed by condensation of aldehydes or ketones with the methylenic group of the cyclopentadienes, and designated by Thiele as '* Fulvenes." The formula, HC

I

c,

HC=C

,)C==R