Paper detail

Theoretical investigations of superconducting MAX phases Ti2InX (X = C, N)

The structural, elastic, electronic, thermal and optical properties of superconducting MAX phases Ti2InX (X = C, N) are investigated by density functional theory (DFT). The results obtained from the least studied nitride phase are discussed in comparison with those of carbide phase having Tc-value half as that of the former. The band structure and density of states show that these phases are conductors, with contribution predominantly from the Ti 3d states. The bulk modulus, Debye temperature, specific heats, thermal expansion coefficient are all obtained as a function of temperature and pressure for the first time through the quasi-harmonic Debye model with phononic effects. Ti2InC and Ti2InN are indicated to be moderately coupled superconductors. The thermal expansion coefficients for both the phases are calculated, and the calculation is in fair agreement with the only available measured value for Ti2InC. Further the first time calculated optical functions reveal that the reflectivity is high in the IR-visible-UV region up to ~ 10 eV and 12.8 eV for Ti2InC and Ti2InN, respectively showing these to be promising coating materials. Keywords: Ti2InX superconductors; First-principles; Mechanical properties; Band structure; Thermodynamic properties; Optical properties