Differential nuclear overhauser enhancement for 13C singlet and 13C13C multiplet resonances of a carboxyl carbon

## Abstract The ^13^C NMR signals of the two methyl groups in 4‐hydroxy‐1‐isopropyl‐2‐oxaadamantane are anisochronous in the presence of Yb(fod)~3~. This is interpreted in terms of the different populations of three rotational conformers.

## Abstract __J__(^13^C^1^H) coupling constants for some methyl‐ and aminopyrimidines have been determined by ^13^C NMR. Both the one‐bond and long‐bond and long‐range coupling constants follow general trends which can be summarized in a few simple rules. In particular, the ^3^__J__(C‐i,H) coupling

Silicon-29 spin-lattice relaxation times and 29Si-(1H} nuclear Overhauser enhancements are reported for five trialkylsilanes and for sym-tetramethyldisiloxane, all of which contain a direct Si-H bond. Relaxation rate contributions from (Si, H) dipolar interactions and from other mechanisms are evalu

Synthesis and screening of diverse chemical libraries for and HMBC (11), for determining the 13 C and 1 H resonances. The assignments can be completed with this method at natu-pharmaceutical-lead discovery has been a topic of great interest in recent years. Oligo-N-substituted glycine (NSG) ral abu

## Abstract A computational strategy for the deconvolution of complex spectra involving scalar multiplet patterns is presented. This approach fits spectra that can be composed of single resonances as well as scalar coupling multiplets for which resonance frequencies, intensities, and lineshape para

## Abstract The estrogen receptor ligand __meso__‐hexestrol has been synthesized with ^13^C enrichment (98 at.%) at every position. ^13^C NMR spectra of the intermediates were obtained and ^13^C−^13^C coupling patterns analyzed. The complex ^13^C NMR spectrum of [^13^C~18~]‐__meso__‐hexestrol was s