Abstract
Hot-filament chemical vapour deposition (HF-CVD) was used to grow aligned carbon nanofibers (CNFs) directly on Cu foils. Fast wet-chemical etching procedures based on hydrogen peroxide (H 2O 2) were found to have a key role on the formation of selective active substrates for the growth process. Here, a comprehensive mechanism is presented. Additionally, it is shown that nano-sized protrusions ∼8 nm with round shape and high density ∼1.7 × 10 3 μm −2 were decisive for the growth of aligned hollow-herringbone CNFs following the base-growth model. CNFs with heights of ∼1 μm and diameters around ∼8 nm show narrow diameter size distribution with remarkable correlation to the protrusion size distribution. The fibers were organised in cone-shape configurations with a cone density of ∼22 μm −2 and a cone angle of 90°. An activation energy for the CNF growth of E act ∼ 0.90 ± 0.16 eV was extracted from the Arrhenius plot showing that the process kinetics is governed by C diffusion in bulk Cu.
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