Abstract
Carbon nanofiber (CNF) monoliths with excellent properties were prepared by catalytic chemical vapor deposition, using ethylene (C2H4) and a non-supported Cu–Ni alloy as carbon source and catalyst, respectively. The structure, mechanical properties, and specific surface area of the CNF monoliths were characterized for various preparation conditions. The formation of CNF monoliths mainly depended on the Cu/Ni ratio, growth temperature and time. A CNF monolith synthesized at 580 °C for 3 h from a Cu–Ni catalyst with a Cu/Ni mass ratio of 0.25 exhibited a bulk density of 0.28 g/cm3, a compressiv eelastic modulus of 1.7 kPa, and a specific surface area of 117 m2/g. SEM images of the CNF monoliths in the initial growth stage further indicated that they were composed of thick octopus-like nanofibers and thin nanofibers that were interwoven with each other to form a three dimensional CNF network and finally the CNF monolith. [New Carbon Materials 2015, 30(1): 54–62]
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