Ion-pairing effects on 1H NMR chemical shifts of cyclic conjugated carbanions

## Abstract The complex character of the temperature dependence of the ^1^H NMR chemical shifts of indenyl‐lithium and ‐sodium in dimethoxyethane is explained. It is shown that the cation causes a polarisation of the CH bonds and thus influences the proton shifts of the anion, both directly by its

## Abstract ^1^H chemical shift assignments are presented for 2‐methyladamantane, 2‐methylnorbornane (__endo__ and __exo__) and 2‐methylnorbornene (__endo__ and __exo__). Resonance assignment was achieved using a variety of 1D and 2D homo‐ and heteronuclear (^1^H–^13^C) experiments. The methyl grou

## Abstract The ^1^H chemical shifts of 124 compounds containing a variety of functional groups have been recorded in CDCl~3~ and DMSO‐__d__~6~ (henceforth DMSO) solvents. The ^1^H solvent shift Δδ = δ(DMSO) − δ(CDCl~3~) varies from −0.3 to +4.6 ppm. This solvent shift can be accurately predicted (

For the first time, a simple NMR methodology is proposed for the accurate determination of the effect of the substitution of 12 C by 13 C on the chemical shifts of protons separated by two-bonds in small molecules in their natural abundance.

## Abstract ^13^C chemical shifts and ^31^P,^13^C coupling constants are reported for nine 1‐hydroxyalkylphosphonic and two additional phosphonic acids. The α‐substituent‐induced chemical shifts (α‐SCS) of the phosphonate group were calculated and their non‐additivity was observed. Good linear corr