13C chemical shifts of chlorinated biphenyls

## Abstract ^13^C chemical shifts are reported for adamantane, nine 1‐substituted adamantanes and nine 2‐substituted adamantanes. The substituents are F, Cl, Br, I, NH~2~, OH, CH^2^, CN and CO~2~H. The assignments and results are discussed in terms of chemical shift patterns.

Isotropic 13C chemical shifts of the ribose sugar in model RNA nucleosides are calculated using SCF and DFT-GIAO ab initio methods for different combinations of ribose sugar pucker, exocyclic torsion angle, and glycosidic torsion angle. Idealized conformations were obtained using structures that wer

A 220 MHz NMR spectrometer has been used to identify the structure of polychlorinated biphenyls (PCBs). The proton chemical shifts and approximate coupling constants of PCBs fractionated from Aroclor 1254 are given in the text. The spectra of model compounds are included in the supplement. The chemi

## Abstract An extensive carbon‐13 nuclear magnetic resonance study of selected model olefins dissolved in deuteriochloroform has been carried out under standardized conditions. Assignments of the chemical shifts have been made. The influence of the nature of the solvent and the effect of changing

## Abstract An equation correlating ^13^C NMR chemical shifts and the global van der Waals energy of the carbon atoms (rms deviation δ ≤ 2.6 ppm) in aliphatic hydrocarbons, alcohols and chlorinated derivatives was derived. Molecular mechanics calculations have been used to determine the global van

## Abstract ^13^C chemical shifts are reported for the ring carbons of several substituted Δ^1^‐pyrrolines. Average values for methine and methylene ring carbons facilitate structure elucidation of substituted δ^1^‐pyrrolines by ^13^C NMR spectroscopy.