Additivity scheme in nmr chemical shifts of disubstituted pyridines

## Abstract The ^13^C NMR spectra of triangulanes, the unique class of hydrocarbons constructed from spiroannulated cyclopropanes, were analysed, and correlations were revealed between their structures and ^13^C chemical shifts. The procedure for the configurational assignment in triangulanes based

## Abstract The additivity of the proton and carbon chemical shift increments due to structural changes in a series of conjugate acids derived from benzene polycarboxylic acids is reported. In the acids, two sets of increments had been applied, one to the __ortho__ diacids and one to acids which do

The effect of 29 commonly encountered substituents on the chemical shifts of ct, 13 and C5H5 positions in monosubstituted ferrocenes are tabulated and employed for determining IH NMR assignments in 1,2-and 1,1'-disubstituted ferrocene derivatives.

H and 13C NMR chemical shifts and the homo-and heteronuclear coupling constants of 14 nitroxanthones are presented. Specific nitro increments for xanthones depending on substituent position and on the respective ring carbon position and shift additivity rules were developed by means of multiple line

## Abstract The aromatic ^1^H NMR shifts of __ortho__‐disubstituted benzenes were used to derive 285 pair‐induced chemical shifts (pairwise corrections) for vicinal pairs of the substituent set (F, Cl, Br, I, NH~2~, NHCOMe, NO~2~, OH, OMe, Me, CHO, COMe, CN, Ph). Using these parameters and a simple

## Abstract An additivity relationship of substituent effects on the formyl proton chemical shift has been tested with ten disubstituted benzaldehydes. In most cases it is found that the formyl proton chemical shift, extrapolated to infinite dilution in nitromethane, is in good agreement with that