Theoretical study of geometries and 1H-chemical shifts of cycloarenes

## Abstract The isotope effect induced by deuterium substituted species is observed in molecular properties, such as geometry, kinetics, and electronic state, of the molecules through nuclear‐electron interaction. Theoretical considerations and experimental alignments have been studied by ab initio

Sn chemical shifts have been studied theoretically by an ab initio molecular orbital method. The complexes calculated here are SnMe,\_,C!, and SnMe,\_,H, (x=0-4). The calculated values of the Sn chemical shifts agree well with the experimental ones. For the SnMe,\_,H, compounds, the p mechanism is d

## Abstract The ^1^H NMR 270‐MHz spectra of substituted 2‐phenylthiazolidines were recorded and the substituent‐induced chemical shifts (SCS) of the benzylic proton plotted against σ, the correlation coefficient being 0.801 and −ρ = 10.29 Hz. Halogens show deviations in the SCS plots. When the halo

## Abstract The change in ^1^H NMR chemical shifts upon hydrogen bonding was investigated using both experimental and theoretical methods. The ^1^H NMR spectra of a number of phenols were recorded in CDCl~3~ and DMSO solvents. For phenol, 2‐ and 4‐cyanophenol and 2‐nitrophenol the OH chemical shift