Abstract
In this paper, we show that the efficiency in the growth of carbon nanocoils is significantly improved by introducing a SnO2 buffer layer. Carbon nanocoils were synthesized by chemical vapor deposition using an Fe–Mg–Co or Fe–Mg–Co–Sn catalyst supported on an Al2O3 substrate coated with a 30nm SnO2 buffer layer. The carbon nanocoil growth rate improved by more than 200% compared with the non-coated substrate when using Fe–Mg–Co–Sn or Fe–Mg–Co catalyst layers 600 or 300nm thick, respectively. The byproduct layer was also reduced significantly, which results in more than 50% gain in the consumption of carbon source gas during the synthetic process. The role for an external Sn supply from the buffer layer is discussed based on the experimental results.
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