An investigation into the optimal growth of single-walled carbon nanotubes (SWNTs) in vertical arrays, or carpets, is presented utilizing atomic hydrogen catalyst activation with hot filament chemical vapor deposition. Using acetylene decomposition over Fe catalyst, we study the effect of oxidant-assisted growth using O 2 , CO 2 , and H 2 O. Whereas trace amounts of O 2 result in the lack of any catalytic activity, CO 2 and H 2 O are found to dramatically enhance the catalyst lifetime. On the basis of the saturation effect of oxidant concentration for both CO 2 and H 2 O, we present this as being due to catalyst stabilization from surface hydroxyl groups, with H 2 O having the most dominant effect upon carpet growth. Utilizing water-assisted growth, this process is further optimized to yield high-quality single-walled carbon nanotubes. High temperature growth (∼775 °C) yields the highest-quality SWNTs, whereas controllable growth of double-and few-walled nanotubes can also be achieved at lower temperatures (550-600 °C). Finally, ultralong carpets are demonstrated by utilizing the optimal SWNT growth conditions under an enhanced carbon flux environment.
Growth of high quality, vertically aligned single-walled carbon nanotubes (carpets) is achieved using a rapid insertion hot filament chemical vapor deposition (HF-CVD) technique. The effect of the substrate morphology on growth is explored by comparing carpets grown on epitaxially polished MgO substrates to those grown on "as-cut", macroscopically rough MgO substrates. Depending on the substrate morphology, we observe differences in both the overall carpet morphology as well as the diameter distribution of nanotubes grown in the carpet based on optical measurements. In addition, we explore the role of water in the growth of carpets on MgO and the conventional Al2O3 coated Si substrates. We find that the addition of a small amount of water is beneficial to the growth rates of the SWNT carpets, enhancing the growth rates by up to eight times.
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