Abstract
Carbon nano-onions (CNOs) with an average diameter of 43 nm have been studied under pressure. The interlayer d-spacings of the CNOs are expanded by about 3% compared to those of the larger CNOs with average diameter of 150 nm studied earlier. High pressure study on the G-band of the small CNOs indicates that a bonding change was initiated at 23.4 GPa, which is higher than that of the larger CNOs. The small CNOs were destroyed into amorphous fragments at above 48 GPa with a large applied deviatoric stress, showing a lower high pressure stability compared with the larger CNOs. These features are qualitatively similar to the size effects observed in the compression behavior of some nanocrystalline materials, showing that a reduced cluster size gives similar physical effects in the two classes of materials. The present results for CNOs can be rationalized by the interlayer expansion and the highly turbostratic layer structure of the studied material. The fact that CNOs with different diameters behave differently upon compression is important when selecting materials for applications.
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