Chemical Properties of C3, a Dicarbene - Journal of the American

J. Am. Chem. Soc. , 1963, 85 (7), pp 1023–1023. DOI: 10.1021/ja00890a059. Publication Date: April 1963. ACS Legacy Archive. Cite this:J. Am. Chem. S...
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COMMUNICATIONS TO THE EDITOR

April 5 , 1963

Acknowledgments.-The authors are grateful to Prof. A. R. Battersby (University of Liverpool) for a sample of pavine, Dr. V. J. Bauer (Lederle Laboratories) for helpful discussions, Mr. W. Fulmor and staff (Lederle Laboratories) for the many absorption spectra, Mr. A. Struck and staff (Central Research Division, American Cyanamid Company, Stamford, Connecticut) for the mass spectra and Dr. J. H. Boothe (Lederle Laboratories) for encouragement. ORGANIC CHEMICAL RESEARCH SECTION LEDERLE LABORATORIES DIVISION MICHAEL J. MARTELL, JR. AMERICAS CYANAMID COMPANY PEARLRIVER,NEW YORK DEPARTMENT O F PHARMACEUTICAL CHEMISTRY OF PHARMACY COLLEGE TAITO0 . SOINE UNIVERSITY OF MINNESOTA MINNEAPOLIS, MINSESOTA DEPARTMENT O F PHARMACEUTICAL CHEMISTRY

COLLEGE OF PHARMACY LEMONT B. KIER UNIVERSITY OF FLORIDA GAINESVILLE, FLORIDA RECEIVED FEBRUARY 5, 1963 CHEMICAL PROPERTIES OF CB,A DICARBENE

Sir: We should like to report on the chemical properties of C3, a substance which was first detected in the atmosphere of a comet' and subsequently identified by optica12-4 and mass spectroscopic analyses5 We are not aware of any prior description of chemical properties of this substance. Carbon vapor produced in vacuo to mm.) reacts a t a liquid nitrogen-cooled surface with olefins to produce homologs of the parent substance bisethanoallene (I). 2

HzC

1

HZC

II 'c=c=c / I

T

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CHZ

2' 1'

Isobutylene reacts with C3 t o produce l,l,l',l'tetramethyl-bis-ethanoallene (11).

I1 This substance is the major product of the reaction, obtained in approximately 40% yield based on bulk carbon vaporized. Distillation under high vacuum serves to separate I1 from isobutylene and condensed carbon, and with gas chromatography a pure product is isolable. A parent peak is observed in a low voltage (15 v.) mass spectrum a t 148 mass units. A strong absorption band a t 4.88 p in the infrared is attributed to the strained allenic system. Hartzler observed an absorption band a t 4.95 p for monoethanoallenes.6 The proton magnetic resonance spectrum shows two unsplit absorptions a t 8.67 and 8.72 7 (referred to tetramethylsilane) with intensities of 1: 3, attributed to the cyclopropane CH2 and the methyl groups, respectively. No vinylic absorption is observed, van't Hoff inferred that the two CH2 groups in allene should lie in orthogonal plane^.^ This prediction (1) (2) (3) (4) (5) (fi)

G . Herzberg, Aslrofihys. J., 96, 314 (1942). A. E . Douglas, i b i d . , 114, 466 (1951). G. Herzberg, M e m . soc. r o y . s c i . Liege, s e v . 4 , 16, 291 (1955). I.. Brewer and J. I.. Engelke, J . Chem. P h y s . , 36, 992 (1962). W. A. Chupka and h l . C. Inghram, J . P h y s . Chem., 69, 100 (1953). H . D. Hartzler, J . A m . Chem. .So