13C and 125Te chemical shifts in ortho-substituted tellurophenetoles

## Abstract ^1^H and ^13^C NMR data are reported for pentane‐2,4‐dione tellurium(II) compounds which contain a 6‐membered tellurane ring bearing methyl or ethyl substituents. The ^125^TeCH coupling constants are particularly interesting in that they are highly stereospecific, viz. ∼60 Hz and 0–8 Hz

## Abstract An equation has been developed which relates __ortho__ or C‐β ^13^C substituent chemical shifts (SCS) to the __ortho__ proton–proton coupling constant in the unsubstituted member of a conjugated series. This method is an extension of previous equations which have been used to predict __

Se and v e chemical shifts have been measured for 0-halogenated seleno-and telluro-phenetoles. Correlations exist between these parameters and the halogen electronegativities or the 13C chemical shifts, except for the fluorine derivatives. The chalcogen shifts are related to the shifts of various nu

## 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

The 13C chemical shifts of nine 2-X-substituted phenetol derivatives were measured together with the 13C chemical shifts of the corresponding X-monosubstituted benzenes. Using an additivity scheme, the ethoxy cisand transortho-SCSs (substituent chemical shifts) at C-6 and C-2, respectively, were det