On the determination of micellar aggregation numbers from the concentration dependence of13C NMR chemical shifts

## Abstract ^13^C chemical shifts and ^31^P,^13^C coupling constants are reported for nine 1‐hydroxyalkylphosphonic and two additional phosphonic acids. The α‐substituent‐induced chemical shifts (α‐SCS) of the phosphonate group were calculated and their non‐additivity was observed. Good linear corr

## Abstract The __syn__/__anti__ dependences of the alkyl ^13^C chemical shifts provide a useful probe of stereochemistry around the amide bonds in peptides and proteins. To investigate these dependences the __ab initio__ IGLO method was used to obtain the ^13^C chemical shielding for the following

## Abstract The ^13^C NMR spectra of 40 vicinally substituted 2‐ and 3‐nitropyridines were recorded. The observed chemical shifts are, in general, non‐additive. These results are discussed in terms of the effects of 2‐, 3‐ and 4‐substitutents on the ring carbons and of the position of the fixed nit

## Abstract Intrinsic temperature dependencies of ^13^C NMR shifts in alkanes bearing one polar C‐αX bond are determined with neopentyl and 4‐__tert__‐butylcyclohexyl derivatives as conformationally homogeneous model compounds. The increased shiedling for C‐α at higher temperatures can be related