S. Velu et al., The effect of cobalt on the structural properties and reducibility of CuCoZnAl layered double hydroxides and their thermally derived mixed oxides, J MAT CHEM, 11(8), 2001, pp. 2049-2060
A new series of CuCoZnAl layered double hydroxides (LDHs) with various Cu/C
o atomic ratios were synthesized by a coprecipitation method at constant pH
approximate to 9. The effects of Co on the structural properties and reduc
ibility of both as-synthesized and calcined materials were investigated tho
roughly by employing powder X-ray diffraction (XRD), ultraviolet-visible di
ffuse-reflectance spectroscopy (UV-Vis DRS), thermogravimetry-differential
thermal analysis (TG-DTA), and temperature programmed reduction (TPR) metho
ds. Characterization of as-synthesized materials using these techniques rev
ealed the formation of well-crystallized hydrotalcite (HT)-like LDHs with a
general formula[Cu1-(x+ y + z)CoxZnyAlz(OH)(2)](z+)[(CO32-)(z/2). mH(2)O](
z-) as a major phase. Thermal analyses of materials indicated three stages
of endothermic weight loss processes due to the loss of interlayer water an
d some loosely bound CO32- (100-250 degreesC), loss of structural water and
CO32- (250-400 degreesC) and the loss of some strongly held CO32- anions (
above 500 degreesC). The structural and redox properties of mixed oxides ob
tained upon thermal activation were investigated by calcining the LDH precu
rsors at 300, 450, 700 and 900 degreesC. The Cu-rich sample generated a mix
ture of CuO, ZnO and CuAl2O4 spinel, while Co-based spinel phases were obse
rved at all temperatures in the case of the Co-rich sample. Materials conta
ining both Cu and Co showed a mixture of CuO, Co-based spinel and CuAl2O4 s
pinel. The interesting observation of the present study was that the reduci
bility of Cu2+ species of the CuO was enhanced with increasing Co content.
On the other hand, the reducibility of Co species decreased with increasing
Cu content.