范德瓦尔斯力
尖晶石
四方晶系
电子结构
镍
铝酸盐
铁磁性
化学稳定性
密度泛函理论
八面体
化学
材料科学
热力学
晶体结构
计算化学
结晶学
凝聚态物理
物理
分子
冶金
有机化学
水泥
作者
Ishfaque Elias,Aloysius Soon,Jun Huang,Brian S. Haynes,Alejandro Montoya
摘要
The atomic order, electronic structure and thermodynamic stability of nickel aluminate, NiAl2O4, have been analyzed using periodic density functional theory and cluster expansion. NiAl2O4 forms a tetragonal structure with P4122 space group. At temperatures below 800 K, it is an inverse spinel, with Ni occupying the octahedral sites and Al occupying both the octahedral and the tetrahedral sites. Some Niocta + Altetra ⇌ Nitetra + Alocta exchange occurs above 800 K, but the structure remains largely inverse at high temperatures, with about 95% Niocta at 1500 K. Various functionals, with and without van der Waals corrections, were used to predict the experimental formation energy, lattice parameters and electronic structure. In all cases, the NiAl2O4 is found to be ferromagnetic and a semiconductor with an indirect band gap along the Γ → M symmetry points. NiAl2O4 is found to be thermodynamically stable at operating conditions of 900-1000 K and 1 atm relative to its competing oxide phases, NiO and Al2O3.
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