Carbon-13/carbon-12 isotope effects on nitrogen-15 chemical shielding in some diamagnetic cyano complexes

Abstract

Carbon-13/carbon-12 isotope-induced ¹⁵N chemical shifts of 0.06 to 0.10 ppm have been observed for the cyanide ion and several transition metal cyanides. In each case, the ¹⁵N resonance of the ¹³C labelled isotopomers is to high field of that in the corresponding carbon-12 species. The sensitivity of the ¹⁵N and ¹³C shielding constants in the cyanide ion to small changes in the CN bond length are evaluated using the theoretical formulation of Jameson: (∂σ(¹⁵N)/∂r)_e = −872 ± 160 ppm/Å and (∂σ(¹³C)/∂r)_e = −473 ± 90 ppm/Å. Nitrogen-15 chemical shifts in the metal complexes exhibit basically the same behaviour as do the ¹³C chemical shifts in these same complexes.