Development and degradation of graphitic microtexture in carbon nanospheres under a morphologically restrained condition

Graphitic microtexture in carbon nanospheres (CNSs, average diameter = 500–1000 nm) formed by a heat-treatment between 2000 °C and 2900 °C was investigated with XRD, Raman spectrum, SEM and TEM. By the heat-treatment up to 2000 °C, CNS particles in any size were polyhedronized. In the microtexture of polyhedronized CNS particles thus obtained, graphitic stacking structure of aromatic layers was well developed in the polyhedron face regions, while an aggregation of column-like crystallite was confirmed in the polyhedron ridge region. It was also shown that some ridges of CNSs with the average diameter over 700 nm were collapsed by the heat-treatment at 2900 °C. These collapses include an exfoliation of aromatic layers in which the torn layers have hairpin-like microtexture at their ends, and a crack of layer stacks with adjacent layer stacks. According to a direct examination with TEM, it was clarified that a ratio of ridges with either type of damage to a total number of ridges is obviously higher in CNS particles with larger diameter. This phenomenon was discussed in relation to the high crystallinity in the polyhedron face regions and the aggregation of structural defects in the ridge regions.