Predictability of Proton Chemical Shifts in Polyether Carboxylic Acid Ionophores

## 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

## Abstract The effect of substituents on the proton chemical shifts and spin–spin coupling constants in __ortho__‐, __meta__‐ __and para__‐substituted 5‐phenyltetrazoles (tetrazolic acids) in DMSO–CH~3~CN (1:1, v/v) was studied. With the __meta__‐ and __para__‐ substituted compounds the additivity

Ten di-n-butyltin (IV) carboxylates [("Bu$n-OCOR'),O/, and nBu$n(OCOR'), (R' = CC13 CHCI, CH2Cl, PhCH = CH, and 2,2,3,3-tetramethylcyclopropyl) were synthesized and characterized by IR, 'H, I3C, Il9Sn NMR spectroscopy and elemental analysis. Together with other series of organotin(IV) carboxylates,

A reverse __ortho__ effect is observed for the ^13^ C NMR chemical shifts of the carboxyl carbon (__δ__~co~) in benzoic acids measured in aprotic solvents of varying polarity. The __ortho__ effect on __δ__~co~ is best described by a combination of the reverse field and steric accelerating effects of

## Abstract The results of measurements of substituent induced chemical shifts of carboxyl carbons (δ~CO~) of dichloro‐ and difluorobenzoic acids, including the monosubstituted ones with substituents at __meta‐__ and/or __ortho‐__ positions, in chloroform‐d and strengths of these acids (log K) in c