The experimental crystal charge density of the complex [Cu(iz)(2)(can)(2)] (I) (where iz = imidazole, can = cyanamidonitrate anion), [Cu(C(3)H(4)N(2))(2)(CN(3)O(2))(2)], crystallizing in centrosymmetric space group P2(1)/c, has been determined at 120.0 (2) K, using Hansen and Coppens' aspherical atom multipole model. The central Cu atom is pseudo-octahedrally coordinated by four N atoms in an equatorial plane [two from iz molecules, 1.9660 (4) A, two from can anions, 2.0273 (5) A] and by two O atoms (from two adjacent molecules) in axial positions [2.5566 (5) A]. The d-orbital population analysis shows that the oxidation state for the copper is +2 with the d(9) configuration and that there is a hole in the d(x(2) - y(2)) orbital, located in the plane of the four nitrogen-ligating atoms. Electron lone pairs of these four N atoms are pointing into these regions of depleted electron density. In accordance with the medium-length Cu-O axial bonds, the d(z(2)) orbital is almost fully occupied [1.79 (3) electrons]. The non-bonding d(xy) orbital is fully occupied [2.05 (3) electrons]. Analysis of the atomic charges does indicate a deficit of +0.35 (4) e(-) on the nitrile carbon, which provides evidence of beta-carbon activation for a possible nucleophilic addition reaction. This reaction has been indirectly confirmed experimentally.
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