Synthesis of multiwalled carbon nanotubes from bamboo charcoal and the roles of minerals on their growth

Multiwalled carbon nanotubes (MWCNTs) were synthesized from bamboo charcoals by chemical vapor deposition in the presence of ethanol vapor. Fresh bamboo culms were first heat treated at 1000–1500 °C to form charcoals. The elemental composition and structure of mineral phases in the bamboo charcoal treated at different temperatures were analyzed. The results showed that Mg2SiO4 and particularly calcium silicate were responsible for the nucleation and growth of MWCNTs at 1200–1400 °C. Transmission electron microscope and energy dispersive X-ray spectrometer observations indicated that the tips of nanotubes synthesized at 1200–1400 °C consist mainly of calcium silicate. Such silicate tips acted as effective catalysts for nanotubes. The growth of MWCNTs followed the vapor–liquid–solid model including an initial decomposition of ethanol vapor into carbon, dissolution of carbon inside molten silicate and final nucleation of nanotubes.

Calcium silicate spheres formed on the surface of the bamboo charcoal after thermal treatments. Multiwalled carbon nanotubes were synthesized by ethanol chemical vapor deposition. The growth of CNTs follows the vapor–liquid–solid mechanism. Uploading of CNTs could increase the specific surface area and the N2 adsorption capacity.Figure optionsDownload as PowerPoint slideHighlights
► The evolution of minerals in bamboo charcoal under heat treatment is found.
► The roles of minerals in bamboo charcoal in the growth of CNTs are proposed.
► The upload of CNTs increases the specific surface area and the adsorption capacity.