Abstract:

A series of Cu/SiO₂ nanometer aerogel catalysts with different molar ratios of Cu to Si were prepared by sol-gel-SCFD methods and characterized by TEM, XRD, physisorption analysis instrument, micro-reactor and gas chromatogram. It was found that SiO₂ was amorphous and Cu was highly dispersed on the SiO₂ particles, and the structure consists of mesopores. The BET analysis indicates that the samples have a high specific surface area more than 140 m²·g-1. The catalytic activities investigation show that the content of copper and the different phases of reactive species all affected the activities of the samples. When n(Cu)/n(Si)=2, the temperature of entire oxidation of CO upon the sample was reduced to 210 ℃. After calcination at a low temperature, the nanometer particles of Cu and Cu₂O transformed into nanometer CuO, the temperature of CO full conversion to CO2 was further decreased. Adding small amounts of cerium dopant into the composition can change the reactive species from CuO, Cu₂O to Cu, which can further reduce the temperature of tstart, t50 and t90 of the samples. The kinetics research demonstrates that essential of the decrease of the CO oxidation temperature was the decrease of activation energy of CO oxidation reaction.

Key words: Nanometer aerogel catalyst; Microstructure; Catalytic activity