Conformational Effects on Optical Rotation. 3-Substituted 1-Butenes
- 24 January 2003
- journal article
- research article
- Published by American Chemical Society (ACS) in Journal of the American Chemical Society
- Vol. 125 (7), 1888-1896
- https://doi.org/10.1021/ja0211914
Abstract
A calculation of the optical rotation of (R)-(−)-3-chloro-1-butene found a remarkably large dependence on the CCCC torsional angle. At τ = 0°, [α]D = +244°, whereas at τ = 180°, [α]D = −526°. The effect of conformation on the optical rotation was confirmed by a study of the temperature dependence of the rotation. An analysis of the data gave the difference in free energy between the low- and high-energy conformers as 1315 cal/mol and gave the optical rotation of the low-energy conformer and the average of the rotations of the higher energy forms. Although a large effect was found, the observed rotations are a factor of 2.6 smaller than the calculated values, independent of both conformation and wavelength from 589 to 365 nm. The effect of replacing Cl with F, CN, and CCH was examined theoretically. The effects of substituents are remarkably small despite large changes in the calculated electronic transition energies.Keywords
This publication has 21 references indexed in Scilit:
- Conformational Analysis, Barriers to Internal Rotation, Vibrational Assignment, and ab Initio Calculations of 3-Fluoro-1-buteneThe Journal of Physical Chemistry A, 2001
- Theory-Assisted Determination of Absolute Stereochemistry for Complex Natural Products via Computation of Molar Rotation AnglesJournal of the American Chemical Society, 1998
- Ab initio molecular optical rotations and absolute configurationsMolecular Physics, 1997
- Enthalpy Difference between Conformers of n-Butane and the Potential Function Governing Conformational InterchangeThe Journal of Physical Chemistry, 1995
- Vibrational Spectra, Conformational Composition and Normal Coordinate Analysis of 3-Chloro-1-butene.Acta Chemica Scandinavica, 1983
- Hexachloroacetone/triphenylphosphine: a mild reagent for the regioselective and stereospecific production of allylic chlorides from the alcoholsThe Journal of Organic Chemistry, 1979
- The Effect of Solvents on the Optical Rotation of Propylene OxideBulletin of the Chemical Society of Japan, 1970
- Optical purity and optical rotatory power of dehydronorcamphorThe Journal of Organic Chemistry, 1968
- The Absolute Configurations of Some Simple Norbornane Derivatives. A Test of the “Conformational Asymmetry” Model1aJournal of the American Chemical Society, 1961
- Theories of Optical Rotatory PowerReviews of Modern Physics, 1937