Synergistic influence of fluorine and hydrogen on processes of thermal transformations of carbon-containing systems under high pressures

Thermal transformations of naphthalene (C₁₀H₈), octafluoronaphthalene (C₁₀F₈) and their binary mixtures at 8.0 GPa have been investigated by X-ray diffraction, Raman spectroscopy, scanning and transmission microscopies. As a result, the pronounced synergistic effect of fluorine and hydrogen on mechanisms, p, T parameters and products of pressure-temperature-induced transformations of carbon-containing systems has been established. Simultaneous presence of fluorine and hydrogen gives rise to significant reduction of the temperature thresholds (TT) for carbonization, graphitization and diamond formation in C₁₀H₈ – C₁₀F₈ mixtures in comparison with the TT values for pure C₁₀H₈ and C₁₀F₈ at the same pressure. This synergistic effect manifests itself also in the simultaneous presence in the products of transformation of both nano- and micrometer-sized diamond fractions. The reasons of formation of different diamond fractions in the products of binary mixture treatment are discussed in this work.

1. Davydov V.A., Rakhmanina A.V., Agafonov V.N., Khabashesku V.N. Synergistic effect of fluorine and hydrogen on processes of graphite and diamond formation from fluorographite-naphthalene mixtures at high pressures. The Journal of Phys. Chem. C, 115, P. 21000–21008 (2011).

2. Bundy F.P., Bassett W.A., et al. The pressure-temperature phase and transformation diagram for carbon. Carbon, 34 (2), P. 141–153 (1996).