Crystal structure and chemical bonding of the high-pressure phase of MgAl2O4 from first-principles calculations

Fang CM.; de With G.

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Crystal structure and chemical bonding of the high-pressure phase of MgAl2O4 from first-principles calculations

机译：从第一性原理计算得出MgAl2O4高压相的晶体结构和化学键

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First-principles calculations using density functional theory and the pseudopotential method have been performed for the crystal structure and phase relationship of MgAl2O4 and the binary components (MgO and alpha-Al2O3). Calculations show that the spinel MgAl2O4 first decomposes into MgO and Al2O3, and then the binary components react again into the high-pressure form of MgAl2O4 (hp-MgAl2O4) at higher pressures. The influence of different factors (temperature, structural disordering, etc.) has been taken into account. It was found that hp-MgAl2O4 has a smaller volume and a higher bulk modulus than those of spinel phase. The calculated results are in agreement with the experiments. The chemical bonding and physical properties of hp-MgAl2O4 are addressed. [References: 49]

机译：使用密度泛函理论和the势方法对MgAl2O4和二元组分（MgO和α-Al2O3）的晶体结构和相位关系进行了第一性原理计算。计算表明，尖晶石MgAl2O4首先分解为MgO和Al2O3，然后二元组分在较高压力下再次反应成高压形式的MgAl2O4（hp-MgAl2O4）。已考虑到不同因素（温度，结构紊乱等）的影响。发现与尖晶石相相比，hp-MgAl2O4具有较小的体积和较高的体积模量。计算结果与实验吻合。解决了hp-MgAl2O4的化学键合和物理性质。 [参考：49]

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《Philosophical Magazine, A. Physics of condensed matter, defects and mechanical properties》 |2002年第15期|共10页
作者
Fang CM.; de With G.;
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正文语种 eng
中图分类物理学;
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Ab-initio; Atomistic simulation; Valence parameters; Molecular-dynamics; Lattice-dynamics; Spinel; Mgo; State; Pseudopotentials; Alpha-al2o3;

机译：从头算;原子模拟;价参数;分子动力学;晶格动力学;Spinel;Mgo;状态;伪势;Alpha-al2o3;

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Crystal structure and chemical bonding of the high-pressure phase of MgAl2O4 from first-principles calculations

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