Carbon-13 NMR substituent effects in para-substituted benzophenones

## Abstract Carbon‐13 chemical shifts of fourteen __para__‐substituted benzylbenzenes have been determined. The relative substituent chemical shifts (SCS) of the methylene carbons and the aromatic ring carbons (C‐4, C‐1′ and C‐4′) correlated well with the Hammett substituent effects using the dual

## Abstract The ^13^C NMR chemical shifts of the C‐1′ carbon atom of fifteen __para__‐substituted benzophenones correlate with the ℱ and ℛ substituent constants in a reversed manner.

## Abstract The ^13^C chemical shifts of 11 substituted triphenylamines have been determined and the assignment of these resonances made using intensities, ^1^H and ^19^F couplings and predictions from bond additivity relationships. ^13^C chemical shifts at carbons bearing the substituent and at ca

Carbon-13 chemical shifts are reported for 16 para-substituted phenyl isothiocyanates measured at 1 and 1Omol 9'0 in chloroform-d solution. Data for the -N=C==S group were not obtained at lmol 9'0, but concentration effects for the other resonances were negligible. Hammett, dual substituent paramete

## Abstract ^13^C NMR chemical shifts of 22 __ortho__‐substituted nitrobenzenes are reported. Except for those on C‐3 and C‐5, the effects of the interacting nitro group and the substituent are non‐additive. The chemical shifts of the __ipso__, __ortho__ and __para__ carbons in the spectra and thos