A statistical study of the additivities of substituent effects in the 13 C NMR chemical shifts of hydroxy‐ and chloro‐substituted benzenes

The 13 C NMR spectra of six hydroxybenzenes, all chlorobenzenes, all chlorophenols and eight chlorocatechols are measured and assigned. The additivity of the substituent effects and the usefulness of some corrective parameters are studied with regression analysis. The order of the chemical shifts is most efficiently predicted by the simplest substituent effect model, containing only the direct effects of the substituents, although the 95% confidence limits of the calculated shifts are as high as 5.6 ppm. If the chemical shifts need to be predicted within the measuring errors (approximately 0.05–0.10 ppm, in the present data), the number of necessary corrections is very impractical. The correction parameters are found to be independent of the solvent if no conformational effects are operative. These corrections, or the non‐additivity parameters, are thus theoretically interesting. Approximate 1 J (CH) couplings are also reported and the additivity of substitution effects on these parameters are discussed.