Conformational analysis. IV. Molecular structure and composition of

Comparison of Parameter Values of 2-Fluoroethanol and Related Moleculesa ... 2-Chloroethanol-- ... and Composition of Gaseous 2,3-Butanedione as...
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8266 Table 111. Comparison of Parameter Values of 2-Fluoroethanoland Related Moleculesa Parameter 2-Fluoroethanol---------2-Chloroethanol--

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c-x c-c c-0 L ccx L cco

1.400 i. 0.005 1.513 i 0.003 1.418 f 0.006 107.7 i 1 . 4 112.2 Zk 1 . 9 115.4 & 1 . 1

(1.395) (1.503) (1.411) (109.0) (112.8) 117.8 i 1 . 0 8

(1.398) (1.505) (1.428) (109.7) 111.6 116.3 17

1.35-1.40 1.5Ck1.55 1.42 i 0.02 109.0 f 2 . 0 109.5 i 2 . 0 110-120 7

1.802 i 0.013 1 . 5 1 6 i 0.020 1.416 i 0.020 110.6 f 2 . 1 111.8 i 3 . 2 110-120 5

1.7886 i 0.0038 1.5191 i 0.0009 1.4107 i 0.0014 110.09 i 0.33 112.77 i 0.10 116.25 zk 0.58 18

Fluoroethane 1.398 i.0.005 1.505 i 0.004 109.7 I 0.3

LOCCXdh Ref This work 19 Distances in angstroms, angles in degrees. Parenthesized quantities were assumed. The error quantities from different investigations do not necessarily have the same meanings. mol), AE" is calculated to be 2.7-2.1 kcal/mol (corresponding to compositions determined to be in the range 15-25 % trans). Thus, the hydrogen bond in 2-fluoroethanol is probably a t least 0.7 kcal/mol stronger than that in the chlorine compound.

We are grateful to the Science Foundation for support of this work under Grant GP-27763X.

Supplementary Material available. The data for the final experimental intensity curves will appear following these pages in the microfilm edition of this volume of the journal. Photocopiesof the supplementary material from this paper only or microfiche (105 x 148 mm, 20 x reduction, negatives) containing all of the supplementarymaterial for the papers in this issue may be obtained from the Journals Department, American Chemical Society, 1155 16th St., N.W., Washington, D. C . 20036. Remit check or money order for $3.00 for photocopy or $2.00 for microfiche, referring to code number JACS-73-8263.

Conformational Analysis. IV. Molecular Structure and Composition of Gaseous 2,3-Butanedione as Determined by Electron Diffraction Kolbjgm Hagen and Kenneth Hedberg" Contribution f r o m the Department of Chemistry, Oregon State University, Corvallis, Oregon 97331. Received June 9, 1973

Abstract: The structure of 2,3-butanedione has been investigated in the gas phase at a nozzle temperature of

228". There is no evidence for the presence of any but the trans conformer, and, subject to the assumption that other forms differ from the trans only in the torsion angle, amounts of the gauche and/or cis forms greater than about 10% can be rejected with confidence. The values of the princip$ distances (rJ, angles, and amplitudes of 1.214 (0.002) A, 7c-c (the average C-C distance) = 1.5i7 vibratio? ( I ) with estimated error limits of 2u are rc-0 (0.003) A, rlIe (the CTCH3distance) = 1.527 (0.006) A, rcanj(the conjugated C-C distance) = 1.507 (0.010) A, TC-H = 1.114(0.007) A, L CCO = 120.3(0.7)", L CCC = 116.3 (0.3)", L CCH = 108.1(l.?)", 6 (therms amplitude qf the torsion about theoconjugatedsingle bond) = 24.0 (5.6)", lire = I,, , = 0.0563 (0.0028)A, 1c-0 = 0.0387 (0.0020) A, and ICE = 0.0770 A (assumed). In 2,3-butanedione the C=O distance is longer and the conjugated C-C distance shorter than in the oxalyl halides, suggesting conjugation to be a more important stabilizing effect in the former; this view is consistent with the absence of other than the trans conformer in 2,3-butanedione and the presence of substantial amounts of both gauche and trans forms in the oxalyl halides. The value of 6 leads in the harmonic approximation to V* = VI 4Vz 9V, = 11.4 kcal/mol ( U = 2.5) and to a calculated frequency for the torsional motion about the conjugated bond C1-Ci equal to 53 cm-' ( U = 6) in excellent agreement with observed values.

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he molecules of 2,3-butanedione (biacetyl) and the oxalyl halides have the general formula (COX)z, with X = C H 3 or a halogen atom, in which the conjugated chain OCCO admits of the possible existence of more than one rotational conformer. In oxalyl chloride' and oxalyl bromidez two such conformers were found in substantial amounts: the lower energy s-trans (torsion angle 4 = 0") and, surprisingly, the sgauche (@I= 120") instead of the expected s-cis (4 = 1SO'). For 2,3-butanedione, however, spectroscopic (1) I