Abstract
The conditions of self-propagating high-temperature synthesis in a powdered sodium carbonate-magnesium mixture optimum for the preparation of the largest amount of carbon nanotubes (CNTs) were studied. The yield of nanotubes and nanofibers was weakly sensitive to the selection of the amount of a catalyst. The yield of nanotubes ceased to increase noticeably at a relative catalyst content higher than 10 wt %. For the first time, the self-propagating high-temperature reaction was performed with an iron-nickel catalyst in a limestone-magnesium mixture, that is, with the cheapest powdered reagent containing carbon. The reaction produced a small number of CNTs and nanofibers; cubic crystals, predominantly of MgO, were also observed.
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