Experimental and theoretical investigation of 2D-13C DEPT spectra on CDn systems

## Abstract Theoretical and experimental ^2^__J__~HH~ coupling constants for six‐membered rings containing oxygen or sulfur atoms were studied to investigate whether the ^2^__J__~HH~ coupling constant can be used for stereoelectronic studies in heterocyclohexanes, instead of ^1^__J__~CH~, because i

EPR study has shown that the anticancer agent vanadocene dichloride (Cp2VCl2) interacts with carbonate contained in physiological solutions. Chelate complex Cp2VO2CO (|A(iso)(51V)| = 175.1 MHz, g(iso) = 1.9861) is the only paramagnetic species formed in the range about the physiological pH (5.5-11.0

The 'H and "C NMR chemical shift assignments of trans-and cis-10-chlorodecal-2-ones were based on 2D COSY and HETCOR experiments. The spectra were measured either in CDCI, or in C,D, to optimize the spectral dispersion (ASIS effect). Selective spin decoupling experiments were also performed.

The 1 H and 13 C NMR chemical shift assignments of 10-substituted decal-2-ones, cis (H, CH 3 and CO 2 CH 3 ) and trans (H, CH 3 , OH and CO 2 C 2 H 5 ) were based on 2D COSY and HETCOR experiments, supported by selective spin decoupling experiments. The discrimination between the cis and the trans c

## Abstract A method for structure validation based on the simultaneous analysis of a 1D ^1^H NMR and 2D ^1^H^13^C single‐bond correlation spectrum such as HSQC or HMQC is presented here. When compared with the validation of a structure by a 1D ^1^H NMR spectrum alone, the advantage of including a