Abstract
MAX phases have attracted increased attention due to their unique combination of ceramic and metallic properties. Point-defects are known to play vital role in the structural, electronic and transport properties of alloys. However, the effects of disorder are not well explored, despite being a key player in this context. This work investigates the alloying effect on structural-stability, energy-stability, electronic-structure, and diffusion barrier of point defects in MAX phase alloys within first-principles density functional framework. The vacancy (VM, VA, VX) and antisite (M-A; M-X) defects are considered with M and A site disorder in (Zr-M)2(AA')C, where M=Cr,Nb,Ti and AA'=Al, Al-Sn, Pb-Bi. Our calculations suggest that the chemical disorder helps lower the formation energies of VA compared to VM and VX. The VA diffusion barrier is also significantly reduced for M-site disorder compared to their ordered counterpart. We believe that our study will provide a fundamental understanding and an approach to tailor the key properties that can lead to the discovery of new MAX phase alloys.
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