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Summary
On this research, a progress mechanism of vertically aligned carbon nanotubes (VACNT) on a nanostructured porous silicon template (NPSiT) was proposed based mostly on the experimental observations obtained. Camphor oil and ferrocene (Fe) had been used as a carbon supply and a catalyst, respectively. The NPSiT was optimised and used as a template to synthesise VACNT. The VACNT was synthesised on NPSiT through the use of a double thermal chemical vapour deposition (DTCVD) methodology. The synthesis was additionally carried out by way of a floated methodology in a DTCVD reactor through the use of an in-situ catalyst within the absence of any catalysts pre-treatment. Every of the expansion mechanisms was proposed based mostly on the TEM pictures obtained at totally different synthesis situations. From the outcomes, a blended prime and backside progress mannequin was proposed for the expansion mechanism of VACNT on the pores and pillars. Quite the opposite, the tip progress mannequin was proposed for the expansion contained in the pores, whereas the valley progress mannequin was proposed for the expansion throughout the pillars of NPSiT. Moreover, a blended tip and valley progress mannequin was proposed based mostly on the situation of Fe particles.
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