13C NMR assignments of the isoprenoid chain carbons of retinoids from empirical chemical shift differences

## 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

## 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 An approach for the automatic assignment of ^13^C spectra, based on the chemical shift/charge density relationship, is suggested. All permutations of spectral signals are computer‐generated, and for every permutation a least squares adjustment is carried out. The permutation presenting

The 13 C NMR spectra of copolymers of ethylene with 4-methyl-1-hexene and 4-methyl-1-pentene, respectively, were compared. The 4-methyl-1-hexene/ethylene copolymer, which contains an unsymmetric 2-methylbutyl branch, exhibits two distinct 13 C NMR peaks for each of the pairwise methylenes spaced one