Chemometrical Analysis of Substituent Effects. XIII. Comparison of Substituent Effects on Dissociation and Chemical Shift in 13C NMR Spectra of Mono- and Disubstituted Benzoic Acids

A reverse __ortho__ effect is observed for the ^13^ C NMR chemical shifts of the carboxyl carbon (__δ__~co~) in benzoic acids measured in aprotic solvents of varying polarity. The __ortho__ effect on __δ__~co~ is best described by a combination of the reverse field and steric accelerating effects of

## Abstract The results of measurements of substituent induced chemical shifts of carboxyl carbons (δ~CO~) of dichloro‐ and difluorobenzoic acids, including the monosubstituted ones with substituents at __meta‐__ and/or __ortho‐__ positions, in chloroform‐d and strengths of these acids (log K) in c

## Abstract __N__,__N__‐diisopropylamides and ‐thioamides show hindered rotation around the NCH bonds, and the presence of mixtures of conformational isomers can be demonstrated at temperatures below 273 K in solution. ^1^H and ^13^C NMR spectra of these conformers are measured and assigned. The ^

## Abstract ^1^H and ^13^C NMR spectra of several substituted carbazoles (Series 1, 2, 3, 4 and 5) were measured. Substituent chemical shifts (SCS's) and Lynch correlations of ^1^H and ^13^C nuclei were calculated and the substituent effect on the NMR phenomena was determined. Atomic charge densiti