A New Method for Measuring 1H-1H Spin-Spin Coupling Constants

## Abstract ^13^C, ^1^H spin coupling constants of dimethylacetylene have been determined by the complete analysis of the proton coupled ^13^C NMR spectrum. For the methyl carbon ^1^__J__(CH) = + 130.6~4~ Hz and ^4^__J__(CH) = + 1.5~8~ Hz, and for the acetylenic carbon ^2^__J__(CH) = − 10.34 Hz and

## Abstract ^13^C, ^1^H coupling constants for biphenylene have been obtained from the analysis of the ^13^C NMR spectrum of the natural abundance α‐^13^C‐ and β‐^13^C‐isotopomers. The various mechanisms responsible for the observed results are discussed.

## Abstract We report the determination of two‐ and three‐bond ^1^H‐^15^N spin–spin couplings in the nmr spectra of a polypeptide. The ^1^H‐ and ^15^N‐nmr spectra of 99.2% ^15^N‐enriched alumichrome have been studied at 360 MHz and 10.1 MHz, repectively. While some ^2^__J__ and ^3^__J__ coupling ar

A combined theoretical and experimental study of the stereochemical behavior of (31)P-(1)H spin-spin coupling constants has been performed in the series of trivinylphosphine and related trivinylphosphine oxide, sulfide and selenide. Theoretical energy-based conformational analysis of the title compo