Pressure-induced polymorphism in Al3BC3: A first-principles study

Wang JY; Zhou YC; Lin ZJ; Liao T

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Pressure-induced polymorphism in Al3BC3: A first-principles study

机译：Al3BC3中压力诱导的多态性：第一性原理研究

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Al3BC3, an isostructural phase to Mg3BN3, experienced no pressure-induced phase transformation that occurred in the latter material (J. Solid State Chem. 154 (2000) 254-256). The discrepancy is not clear yet. Using the first-principles density functional calculations, we predict that Al3BC3 undergoes a hexagonal-to-tetragonal structural transformation at 24 GPa. The predicted phase equilibrium pressure is much higher than the previously reported pressure range, i.e., 2.5-5.3 GPa, conducted on phase stability of Al3BC3. A homogeneous orthorhombic shear strain transformation path is proposed for the phase transformation. The transformation enthalpy barrier is estimated to yield a low value, i.e., 0.129 eV/atom, which ensures that the transformation can readily take place at the predicted pressure. (c) 2006 Elsevier Inc. All rights reserved.

机译：Al3BC3是Mg3BN3的同构结构相，在后一种材料中未发生压力诱导的相变（J. Solid State Chem。154（2000）254-256）。差异尚不清楚。使用第一原理密度泛函计算，我们预测Al3BC3在24 GPa处会发生六边形到四边形的结构转变。预测的相平衡压力远高于先前报道的对Al3BC3的相稳定性进行的压力范围，即2.5-5.3 GPa。提出了均匀正交斜切应变转变路径进行相变。估计转化焓屏障产生低值，即0.129eV /原子，这确保了转化可以容易地在预测压力下发生。（c）2006 Elsevier Inc.保留所有权利。

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《International Journal of Quantum Chemistry》 |2006年第8期|共5页
作者
Wang JY; Zhou YC; Lin ZJ; Liao T;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
Al3BC3; high pressure; phase transformation; density functional calculations; equation of state; MG3BN3;

机译：Al3BC3;高压;相变;密度泛函计算;状态方程;MG3BN3;

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Pressure-induced polymorphism in Al3BC3: A first-principles study

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