COPPER-COBALT HYDROXISALTS AND OXYSALTS: BULK AND SURFACE CHARACTERIZATION

Copper-cobalt oxysalts of various Cu:Co atomic ratios (100:0.92:8,85:15,77:23,67:33, 15:85,0:100) have been prepared by coprecipitation, at constant pH, from solutions of copper and cobalt nitrates added to a solution of NaHCO3; the structure and chemical nature of the Cu-Co oxysalts have been investigated by several complementary techniques such as X-ray diffraction (XRD), magnetic susceptibility, reflectance spectroscopy and X-ray photoelectron spectroscopy (XPS) to obtain information both on their bulk and on their surface properties. ln the range of Cu:Co atomic ratios from 100:0 to 67:33 the materials consist of Co-containing malachite, Cu2-xCoxCO3(OH)2, while for Cu:Co equal to 0:100 and 15:85 the products are CoC3., spherocobaltite, and Cu-containing spherocobaltite Co0.85Cu0.15CO3, respectively. From both reflectance spectroscopy and magnetic susceptibility measurements the presence of only Cu2+ and Co2+ species has been ascertained in all materials. Antiferromagnetic interactions are strong at high copper content and become weaker at increasing cobalt loading. The observed decrease in volume of the malachite monoclinic unit cell with incorporation of Co2+ ions, in spite of the larger Co2+ ion radius with respect to that of Cu2+, indicates that distortion of the MO6 polyhedra at the cation site of the malachite lattice is less when Cu2+ is replaced by Co2+. The presence of Cu2+ in the spherocobaltite trigonal lattice shows a small cell volume decrease as expected from ionic radii ditference. XPS has confirmed the presence of only Cu2+ and Co2+ species at the surface of the materials. lt is also shown that the local nature of the chemical bond is essentially determined by the nature of the first-neighbour ligands. At higher copper content, where the materials are cobalt-containing malachite, the surface is enriched in cobalt.