α-Substituent effects on 13C NMR chemical shifts in some aliphatic compounds: Application of principal component analysis (PCA)

## Abstract A principal component analysis is applied to α‐monosubstituted ethyl acetates (YCH~2~CO~2~Et), where the observed chemical shifts for the α‐carbon atom, the carbonyl carbon, and the α‐hydrogen atoms are correlated with theoretically derived molecular properties, i.e. the partial charges

## Abstract A general equation describing the effect of substituents on α‐carbons in a saturated framework was developed from ^13^C chemical shifts obtained under uniform conditions for selected aliphatic compounds. Experimental correlations for β‐ and γ‐carbons and a discussion of the results are

## Abstract ^13^C chemical shifts obtained under uniform conditions for selected compounds containing secondary aliphatic fragments were employed in a linear regression analysis. Two‐parameter relationships describing the substituent effects in the saturated framework were calculated, and the usefu

Principal components analysis was applied to the 13C and 15N chemical shift data on a series of fifteen l-(para-substituted-phenyl)-3-acetyl-3-methyltriazene~. It was found that the halogen-substituted triazenes formed a class, based on substituent effects, which was different from the remaining ele

In the previous papers, l-3 we reported that the relative substituent C-13 chemical shifts (13C-SCS) of aliphatic and aromatic carbons are mainly controlled by group electronegativity (Xx) showing periodical dependence and to a small extent by resonance-like effect. We now propose a new inductive su