Structural Dislocations in Anthracite

Anthracite is composed primarily of polycyclic aromatic hydrocarbons that exist as curved layers of graphenic sheets of various sizes. The bright field high-resolution transmission electron microscopy (HRTEM) image of raw anthracite reveals four kinds of edge dislocations, suggesting that radical-induced dislocation networks are formed during the geologic evolution of bituminous coal into anthracite and that they play an important role in the chemistry of this carbon-rich material. The dislocations result in graphenic layers merging into a massive interconnected network and can explain why samples reductively alkylated by solubilizing dodecyl groups fail to exhibit the high solubility in organic solvents of other similarly functionalized nanomaterials.