Abstract
In situ synthesis of ultra-long SiC–SiO2 nanowires were successfully conducted with the raw materials of silicon and phenolic resin by an effective and catalyst-free technique. Several millimeters long SiC–SiO2 nanowires with the diameters in the range of 50–200nm were mainly composed of Si, C and a small amount of O, and the formation of several millimeters long SiC–SiO2 nanowires was attributed to a low flow rate and carbon sources supplied continuously by the pyrolysis of phenolic resin. A catalyst-free vapor–solid (VS) growth mechanism was proposed to illustrate the growth process of ultra-long SiC–SiO2 nanowires in present experiment, which provides a promising method for in situ fabrication of SiC–SiO2 nanowires as reinforcements into composites.
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