37,35Cl isotope effects on 19F and 13C chemical shifts of chlorofluoro- and hydrochlorofluorocarbons

## 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 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

## Abstract The OH chemical shift of the enol form of nitromalonamide is found at 18.9 ppm both in DMSO‐__d__~6~ and in DMF‐__d__~7~ indicating a very strong hydrogen bond. The OH chemical shift is insensitive to temperature changes. Contrary to the large OH chemical shift, a small two‐bond deuteri

17O chemical shifts were measured in 40 enamines activated in the b-position by CxO, COO, NO 2 , SO and groups. Data for the oxygen-containing series of o-hydroxyacyl aromatics are also included for com-SO 2 parison. Intramolecular hydrogen bonding in the enamines is discussed in terms of the accept

## Abstract Long‐range isotope shifts, Δδ, due to ^37^Cl/^35^Cl and ^81^Br/^79^Br, in the ^19^F NMR spectra of some substituted benzenes are reported. The shifts appear to be invariant to solvent and are additive when the isotopes are in chemically equivalent positions relative to the fluorine site