37Cl/35Cl-Induced 13C Isotope Shifts in Chlorinated Methanes

## Abstract Isotope effects on the chemical shift of ^13^C directly bonded to the isotopes ^35^Cl and ^37^Cl are reported for a wide range of chlorohydrocarbons. By recording ^13^C NMR spectra under conditions of composite pulse ^1^H decoupling, ^13^C resonances can be obtained that are sufficientl

## Abstract An isotope effect of about 0·1 Hz at 25 MHz (0·004 ppm) on the ^13^C chemical shifts due to directly bonded chlorine has been observed at −50°C for hexachloropropene, hexachlorobutadiene and tetrachlorobutenyne. This effect yields an unambiguous assignment of ^13^C NMR lines to specific

## Abstract One‐bond isotope shifts of ^35^Cl/^37^Cl natural abundance chlorine isotopomers were measured in the 75.4 MHz ^13^C NMR spectra of a series of __para__‐substituted chlorobenzenes. The high‐field isotope shift effect ^1^Δ^13^C(^37^Cl) was established from the relationship between the chl

## Abstract One‐bond ^37^Cl/^35^Cl isotope effects on ^13^C NMR chemical shifts were used to assign the ^1^H and ^13^C NMR spectra of bis(4‐chlorophenyl)sulfone, 4,5‐dichlorophthalic acid and 2,2^′^‐thiobis(4,6‐dichlorophenol). The chlorine‐bonded carbons showed characteristic peaks separated by ab

## Abstract Isotope effects on the chemical shift (IECS) of ^19^F bonded through two or three bonds to the isotopes ^35^Cl and ^37^Cl are reported for a wide range of two‐carbon chlorofluorocarbons (and, for a few cases, with the isotopes ^79^Br and ^81^Br, for two‐carbon bromofluorocarbons). These