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Can circularly polarized light be used to obtain chiral compounds of high optical purity? (1974)

Kagan, H. B. ; Balavoine, G. ; Moradpour, A.

Springer

Journal of molecular evolution 4 (1974), S. 41-48

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ISSN: 1432-1432

Keywords: Circularly Polarized Light ; Asymmetric Synthesis ; Kinetic Photoresolution ; Optical Purity ; Helicene ; Generation of Optical Activity

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The production of optically active compounds starting from optically inactive material and with the help only of circularly polarized light is briefly discussed. This problem is possibly related to the appearance of optical activity on earth. Some aspects of photochemical asymmetric synthesis of helicenes are given, the optical yields being always lower than 1%. The possibility of obtaining much higher optical purity by using partial asymmetric photodecomposition of a racemic mixture is then discussed. The kinetic treatment allows the prediction that at the end of the destruction the recovered material must be of high optical purity. An experimental demonstration of the correctness of the calculations is shown in the case of dl camphor. Camphor of 20% optical purity could be isolated after prolonged photolysis by circularly polarized light.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01732770

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Solid angle as steric parameter of acyclic saturated groups (1991)

Chauvin, R. ; Kagan, H. B.

New York, NY [u.a.] : Wiley-Blackwell

Chirality 3 (1991), S. 242-253

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ISSN: 0899-0042

Keywords: steric effects ; geometric model ; ester hydrolysis ; ester conformation ; Chemistry ; Organic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: With the early aim of quantifying steric consequences of chirality, efforts to define a nonempirical steric parameter of chemical groups are reported. Steric hindrance of a reacting center by any acyclic saturated R group has been characterized by a geometric “axial steric parameter”: the solid angle of R. When the group is a “symmetric top substituent” (i.e., when all the terminal atoms are equivalent), the solid angle matches the solid angle of a cone envelope of R. The definition of this cone is compared with Tolman's definition of a ligand cone in organometallic complexes. The chemical significance of this parameter is shown by an excellent correlation with the Dubois' experimental steric parameter E′s. Modeling steric repulsion by the cone of R, and correcting solid angles for conformational effects, only 3 empirical coefficients are needed to calculate 33 values of E′s with less than 10% error. The cone model is suggested to be relevant within the limits of random and independent free rotations about all the bonds in the C-R group. A separation between “axial cone steric hindrance” and other steric effects is proposed. The basic model and the corrections proposed allow the conformational features of esters to be discussed.

Additional Material: 8 Ill.