Crystal structure of (acetonitrile-N)copper(I) cyanide, [Cu(CH3CN)][CN]

Abstract: C 3 H 3 CuN 2 , monoclinic, P12 1 /c1 (no. 14), a = 8.399(2) Å, b = 8.144(2) Å, c = 7.836(2) Å, b = 116.56(3)°, V = 479.4 Å 3 , Z = 4, R gt(F) = 0.024, wRref(F 2 ) = 0.059, T = 120 K. Source of materialCopper(I) cyanide (0.2 g) prepared according [1] and acetonitrile (HPLC-grade, 1 mL) were mixed together. This mixture was filled in a glass ampule (Duran, interior diameter 10 mm, length 80 mm) which was evacuated and sealed. Following annealing was performed in an electric resistance oven at a temperature of 4… Show more

“…In cyano-bridged compounds, such as CuCN itself, a single Cu–C/N band is invariably observed, representing the average energy of the Cu–C and Cu–N bonds. The CN stretching frequency in CuCN complexes correlates well with the crystallographically determined Cu–C/N distance. − A decrease of about 35 cm –1 in ν CN corresponds to an elongation of about 0.1 Å. Solid-state spectra of CuCN should not be collected as KBr pellets, due to a reversible reaction between CuCN and Br – in the solid state. Like CO ligands, CN groups might be expected to show IR frequencies corresponding to weaker stretching when bridging.…”

“…Upon addition of ligands to the copper(I) centers in the CuCN chain, bands A–C show a decrease in frequency. Band D becomes nondegenerate, splitting into a higher and lower frequency pair of features …”

Structure and Bonding in Copper(I) Carbonyl and Cyanide Complexes

“…In cyano-bridged compounds, such as CuCN itself, a single Cu–C/N band is invariably observed, representing the average energy of the Cu–C and Cu–N bonds. The CN stretching frequency in CuCN complexes correlates well with the crystallographically determined Cu–C/N distance. − A decrease of about 35 cm –1 in ν CN corresponds to an elongation of about 0.1 Å. Solid-state spectra of CuCN should not be collected as KBr pellets, due to a reversible reaction between CuCN and Br – in the solid state. Like CO ligands, CN groups might be expected to show IR frequencies corresponding to weaker stretching when bridging.…”

“…Upon addition of ligands to the copper(I) centers in the CuCN chain, bands A–C show a decrease in frequency. Band D becomes nondegenerate, splitting into a higher and lower frequency pair of features …”

Structure and Bonding in Copper(I) Carbonyl and Cyanide Complexes