Nb2Al (100)表面的电子结构和相对稳定性

采用基于密度泛函理论的第一性原理计算，研究了Nb₂Al(100)表面不同终止端的电子结构、表面能和热力学性质。计算结果表明，由于表面弛豫和表面态的形成，所有终止端表面的电子结构均表现出增强的金属性质和减弱的共价性质。根据不同终止端表面的表面能计算，分析了非化学计量比表面的稳定性。在富含Nb和Al的条件下，C终止端表面(Nb₂₂Al₁₂)是热力学最稳定的表面。此外，计算了Nb₂Al(100)表面的功函数，表明该表面获得和失去电子的能力与形成前的纯元素表面相似。

Electronic Structure and Relative Stability of Nb2Al (100) Surfaces

The electronic structures, surface energies and thermodynamic properties of different terminated Nb₂Al (100) surfaces were studied using first-principle calculations based on density functional theory. Results show that the calculated electronic structures present the enhanced metallic character and decrease covalent character for all terminated surfaces, which are attributed to the surface relaxations and the formation of surface states. According the calculated surface energies of different terminations, the surface stabilities of non-stoichiometric surfaces were analyzed. The C terminated surface (Nb₂₂Al₁₂) is the most thermodynamically stable surface under both Nb-rich and Al-rich conditions. Moreover, the work function of Nb₂Al (100) surface was calculated, indicating that its ability to gain and lose electrons on the surface is similar to that of pure elemental surface before formation.