NMR-spektroskopischer nachweis der chiralität π-komplexierter prochiraler olefine
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[1] J. A. Cunningham,et al. Structure of an adduct of a chiral lanthanide nuclear magnetic resonance shift reagent , 1975 .
[2] M. Kainosho,et al. Use of chiral solvents or lanthanide shift reagents to distinguish meso from d or l diastereomers , 1972 .
[3] R. R. Fraser,et al. Separation of nuclear magnetic resonance signals of internally enantiotropic protons using a chiral shift reagent. Deuterium isotope effect on geminal proton-proton coupling constants , 1972 .
[4] D. W. Lewis,et al. Tris[3-(tert-butylhydroxymethylene)-d-camphorato]europium(III). A reagent for determining enantiomeric purity , 1970 .
[5] W. H. Pirkle. The Nonequivalence of Physical Properties of Enantiomers in Optically Active Solvents. Differences in Nuclear Magnetic Resonance Spectra. I , 1966 .
[6] P. Corradini,et al. Molecular asymmetry in the coordination of olefins to transition metals , 1964 .
[7] C. Ganellin,et al. Molecular Asymmetry of Olefins. I. Resolution of trans-Cyclooctene1-3 , 1963 .
[8] E. Weiss,et al. π-Olefin-eisentetracarbonyl-Komplexe mit Liganden der Malein-, Fumar-, Acryl-, Methacryl- und Zimtsäure-Reihe , 1963 .