13C NMR spectra of substituted phenazines: Substituent effects on carbon-13 chemical shifts and the use of 13C15N coupling constants for the assignment of the aromatic carbons

## Abstract __N__,__N__‐diisopropylamides and ‐thioamides show hindered rotation around the NCH bonds, and the presence of mixtures of conformational isomers can be demonstrated at temperatures below 273 K in solution. ^1^H and ^13^C NMR spectra of these conformers are measured and assigned. The ^

## Abstract Proton‐coupled as well as noise‐decoupled ^13^C NMR spectra of several substituted naphthalenes have been studied. Complete assignments of the ^13^C signals based on selectively deuterated derivatives and on the ^13^C^1^H coupling pattern have been made. For the methoxynaphthalenes, ac

Complete 13C spectral assignments of 28 aromatic methoxymethyl ethers bearing different substituents and substitution patterns were made. While mefa-, para-or mono-ortho-substitution did not significantly affect the 13C resonances of the carbon atoms of the methoxymethyl group, di-ortho-substitution

## Abstract The ^13^C solvent induced chemical shifts (SICS) of the carbonyl carbon and the thermodynamic barriers to rotation about the CN bond of __N__,__N__‐dimethylbenzamide are linearly related to the solvent parameter, __E__~T~(30). A multi‐parametric solvent parameter approach indicates tha

## 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.