Melting Points and Formation Free Energies of Carbon Compounds with Sodalite Structure
Abstract
Using first-principles calculations, we investigate the melting temperatures T m and formation free energy of carbon compounds with sodalite structures, XC 6, XC 10, and XC 12, where X is F, Na, Cl, and so on. These compounds are expected to be phonon-mediated superconductors exhibiting high transition temperatures T c of up to about 100 K. We estimate T m as a function of pressure P by using the first-principles molecular dynamics method and show the results as phase diagrams on the P-T plane together with the results of T c. It indicates that the T m of NaC 6, which has a T c up to about 100 K, is about 1300 K or more at P=30 GPa. Furthermore, the T m of FC 6 is about 2200 K even at P=0 GPa, where its T c is about 80 K. Similar results are obtained for FC 10 and ClC 10 systems. These results suggest that some compounds can stably exist as high-temperature superconductors even at room temperature and pressure. To examine the feasibility of synthesizing these compounds, we estimate the formation enthalpies and formation free energies. These results suggest that NaC6 could be formed under a sufficiently high pressure of about 300 GPa and a high temperature of about 6500 K.
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