The origin of aromatic solvent-induced shifts in 19F n.m.r.

The H 2 16 O/H 2 18 O solvent-induced isotope shifts ( 18 O SIIS) of the 19 F NMR signals of a number of fluorine compounds have been measured. These isotope shifts are observed to be upfield, downfield, or zero, depending on the specific compound and the precise solution conditions. At 25°C and wit

The aromatic solvent-induced shifts (ASIS) of various polar solutes induced by polar and non-polar aromatic solvents were determined. The protons that produce a large ASIS in non-polar solvents show a remarkable depression of the ASIS in highly polar aromatic solvents. The observed ASIS in polar aro

type nonbonding orbitals on heavy halogen or related substituents are largely responsible for significantly shielding spin᎐orbit-induced Ž . heavy-atom effects on nuclear magnetic resonance NMR chemical shifts of the neighboring atoms. This suggestion has been examined and confirmed by Ž . 13 densi

## Abstract Proton magnetic resonance spectra of __trans__ and __cis__‐2,3‐diphenylaziridine (1 and 2) and their __N__‐ethyl derivatives 3 and 4 were measured in carbon tetrachloride, chloroform, and benzene‐__d__~6~ at low temperatures (1 and 3) and in dry conditions (1 and 2). On the basis of the

The 'H-and "C-n.m.r. spectra of seven in&lo1 methyl ethers were recorded and assigned. They were classified into five types, and the effect of 0methyl&ion on the chemical shifts of each type is discussed. NOTE ADDED IN PROOF Type F, not encountered in our work, occurs in 1,6-anhydro-3-O-methyl-& D

## Abstract In __para__‐disubstituted benzenes, the effect of one substituent is transferred to the other composite substituent group and its decreased influence on the __ortho__ and __meta__ protons is reflected in their chemical shifts. A graphical presentation of this linear non‐additive depende