First-principle study on thermodynamic property of superhard BC sub(2)N under extreme conditions

In this study, thermodynamic properties of BC2N under extreme conditions have been reported by using first-principle calculations and quasi-harmonic Debye model. Isochoric heat capacity (C v) of BC2N at normal temperature and pressure is 23.15 kJ mol1 K1 and it increases with the temperature and decreases with the pressure. In the low temperature region, pressure has no obvious influence on phonons and thus the decrease of C v is very slow. In the medium temperature region, the decrease of C v becomes steep. The reason is that high pressure plays an important role in controlling the vibration of atoms. In the high temperature region, the decrease of C v becomes slow. Debye temperature () decreases with the temperature. However, the tendency is not obvious in the low temperature region but very clear in high temperature. Moreover, increases with pressure and the amplitude is larger in higher temperature. Because of the four covalent bonds with different strength and distribution asymmetric thermal expansion along different axes occurs. The value of thermal expansion coefficient along c axis is more than that of along a and b axes.