The synthesis and characterization of porous nanostructured cobalt oxide (Co3O4) aerogels using epoxide addition method is described. Cobalt-containing monoliths were obtained by sol-gel processing of an alcoholic cobalt chloride solution with propylene oxide as the gelation agent. The alcogels were dried by supercritical CO2 fluid extraction to obtain the highly porous amorphous cobalt (II) aerogels. To enhance and control the structural properties of the aerogels, single-walled carbon nanotubes (SWCNT) were incorporated into the cobalt (II) aerogel network to form a homogenous composite material. The resulting materials were characterized using powder X-ray diffraction and nitrogen adsorption/desorption analysis. The detailed microstructure of aerogel networks was investigated using scanning and transmission electron microscopy, which showed significant structural changes induced by the incorporation of SWCNT to the cobalt aerogel. Annealing of the aerogel materials at 600 degrees C yields a highly crystalline well-faceted Co3O4 network.

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chloride carbon nanotubes nitrogen adsorptiondesorption scanning and transmission electron microscopy powder xray diffraction propylene oxide cobalt ii aerogel network epoxide addition method co2 fluid extraction wellfaceted co3o4 network porous nanostructured cobalt oxide co3o4 swcnt

Simerjeet K, Gill Andrew M, Shobe Louisa J, Hope-Weeks,.Synthesis of cobalt oxide aerogels and nanocomposite systems containing single-walled carbon nanotubes.. 31 (3),132-8.

Simerjeet K, Gill Andrew M, Shobe Louisa J, Hope-Weeks,"Synthesis of cobalt oxide aerogels and nanocomposite systems containing single-walled carbon nanotubes." 31

Simerjeet K, Gill Andrew M, Shobe Louisa J, Hope-Weeks,"Synthesis of cobalt oxide aerogels and nanocomposite systems containing single-walled carbon nanotubes."