Carbon-13 chemical shifts and conformations of dimethylcyclohexanols

The carbon-13 chemical shifts of monosubstituted cyclohexane derivatives are compared with those of aliphatic compounds. The polar substituents exert a similar influence on the M-, Band y-carbons in both series of compounds. The 8-effect is shown to be characteristic mainly to the cyclic compounds,

## Abstract ^13^C NMR spectra of a series of substituted nortricyclene derivatives have been measured, and the ^13^C chemical shifts interpreted in terms of α, β, γ and δ‐effects. The nature of these substiuent shifts is discussed together with some analytical possibilities. The substituent shifts

## Abstract ^13^C‐nmr chemical shifts of backbone carbonyl and side‐chain β‐carbons in polypeptides provide structural information. Recent utilization of substituent effects on ^13^C‐nmr chemical shifts (principally γ‐effects) has permitted the rationalization of their sequence and conformation dep

## Abstract Carbon‐13 spectra of 59 α,β‐unsaturated carboxylic acids have been measured. Large differential shieldings of ethylenic carbons in the __cis__ and __trans__ isomers of acrylic acid derivatives were found (altogether 15 isomeric __Z__‐ and __E__‐pairs of acids were investigated). The ori

An investigation of 13C NMR chemical shifts for I-azaadamantane (l), twelve N-substituted I-azaadamantanes (2-13). 1,3,5-triazaadamantane (14) and nine derivatives (15-23) of 14 is described. The effects of substitution at the nitrogen atom for compounds 1-13 and at C-7 for compounds 14-23 were eval