Room-temperature deposition of carbon nanomaterials by excimer laser ablation

Abstract

Numerous investigators have reported on pulsed laser deposition of carbon nanotubes, mostly using the Nd:YAG laser for ablation. In all cases the depositions have been conducted at high-temperatures and high pressures. Here we report on the deposition of carbon nanostructures at room temperature using a 248 nm excimer laser nm to ablate mixed graphite-nickel/cobalt targets. We find that the formation of the carbon nanomaterials is dependent on the particular ambient gas employed. In O 2 gas, carbon nanotubes and nano-onions are produced. The nanotubes have notably large channel diameters of 100–200 nm and the nano-onion structures are 100–200 nm in diameter, also much larger than previously observed. High-resolution, in-situ, time-resolved emission spectroscopy has been used to follow the production of molecular carbon species such as C 2 and C 3, as well as metals such as Ni or Co in the different ambients employed. Spectral modeling reveals significant differences in the vibrational–rotational temperatures of C 2 spectra in O 2 versus Ar. Mechanistic details of the formation of carbon nanotubes and nano-onions, and in-situ optical emission spectroscopy are described.