Formation of mesoporous Co3O4 replicas of different mesostructures with different pore sizes

Mesoporous metal oxides Co3O4 are prepared via hard templating synthesis method by using various mesoporous silicas with different pore size as templates. The pore size of the mesoporous silicas with the symmetry of two-dimensional (2d)-hexagonal p6mm, bicontinuous cubic Ia (3) over bard and Pn (3) over barm have been controlled in the range of 6.6-10.7. 4.2-7.5 and 5.1-6.7 nm, respectively, by choosing different surfacrants and co-surfactants and by adjusting either the aging temperature or the ionization degree of the surfactant. The pore size of the silica template has been considered to be an important factor that determines the mesostructure of the resulting metal oxides. It has been found that for p6mm, it is easier to replicate the mesoporous symmetry at large size of mesopores. For Ia (3) over bard, at large-pore size two sets of bicontinuous meso-channels are replicated into mesoporous Co3O4, while small-pore Ia (3) over bard leads to replication of both one set and two sets of meso-channels. Co3O4 can replicate both one set and two sets of bicontinuous Pn (3) over barm meso-channels at all pore sizes that can be obtained (5.1-6.7 nm), indicating the existence of ordered complementary micropores within the silica walls. (C) 2009 Elsevier Inc. All rights reserved.