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RESEARCH PRODUCT
13C NMR study on the methoxy carbon chemical shifts in chloro-substituted anisoles and guaiacols
Erkki KolehmainenJuha Knuutinensubject
Chemical shiftChlorine atomSubstituentchemistry.chemical_elementGeneral ChemistryCarbon-13 NMRPhotochemistryMedicinal chemistrychemistry.chemical_compoundDegree of substitutionchemistrypolycyclic compoundsChlorineGeneral Materials ScienceMultiple linear regression analysisCarbondescription
The 13C NMR chemical shifts of methoxy carbons in chlorinated anisoles and guaiacols have been measured for acetone-d6 solutions. Multiple linear regression analysis, and also ‘simple sum rule’ calculations, have been used to estimate the effects of the chlorine atoms (the position and degree of substitution) on the chemical shifts. The most important effects have shown to be due to the chlorine atoms adjacent to the methoxy and hydroxy substituents. For chlorinated guaiacols, the greatest effect is due to the chlorine atom adjacent to the methoxy group. For chlorinated anisoles, the substituents adjacent to the methoxy group (2,6-disubstitution) cause large effects. For both groups of compounds, the chemical shifts are also greatly influenced by the number of chlorine substituents. Using the three most important independent variables, the average differences between the observed and calculated chemical shifts are ca 0.2 ppm for anisoles and 0.1 ppm for guaiacols. For chloroguaiacols, the corresponding difference was only 0.1 ppm when calculations were performed using single substituent effects.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1983-06-01 | Organic Magnetic Resonance |