Carbon nanotubes were grown in the open pores of a commercial porous ceramic matrix consisting of mainly Al2O3 and SiO2 with an average pore size of 300 and 500 mu m, using a pre-formed nickel catalyst inside the pores and a camphor solution precursor at 780 degrees C. The resulting composites, empty set 27 mm x 10 mm discs containing about 3 wt.% of carbon nanotubes, were then assessed as a filter for the removal of yeast cells and different heavy metal ions from water, and for the removal of particulates from air. The results showed that the carbon nanotube containing composite filter demonstrated a high efficiency of yeast filtration (98%), ca. 100% heavy metal ion removal from water and excellent particulate filtration from air. The composite filter also exhibited good reusability for these applications, owing to the excellent thermal and chemical stability of the carbon nanotubes.

• 出版日期2013-4