MAX 相的电子结构和结构性质的趋势：M(2)AlC（M = Sc、Ti、Cr、Zr、Nb、Mo、Hf 或 Ta）、M(2)AlN 和假设的 M(2)AlB 相的第一性原理研究。

Trends in electronic structures and structural properties of MAX phases: a first-principles study on M(2)AlC (M = Sc, Ti, Cr, Zr, Nb, Mo, Hf, or Ta), M(2)AlN, and hypothetical M(2)AlB phases.

出版信息

J Phys Condens Matter. 2014 Dec 17;26(50):505503. doi: 10.1088/0953-8984/26/50/505503.

PMID:25419878

Abstract

MAX phases are a large family of layered ceramics with many potential structural applications. A set of first-principles calculations was performed for M(2)AlC and M(2)AlN (M = Sc, Ti, Cr, Zr, Nb, Mo, Hf, or Ta) MAX phases as well as for hypothetical M(2)AlB to investigate trends in their electronic structures, formation energies, and various mechanical properties. Analysis of the calculated data is used to extend the idea that the elastic properties of MAX phases can be controlled according to the valence electron concentration. The valence electron concentrationcan be tuned through the various combinations of transition metal and nonmetal elements.

摘要

MAX 相是一大类层状陶瓷，具有许多潜在的结构应用。本文针对 M(2)AlC 和 M(2)AlN（M=Sc、Ti、Cr、Zr、Nb、Mo、Hf 或 Ta）MAX 相以及假设的 M(2)AlB 进行了一组第一性原理计算，以研究它们的电子结构、形成能和各种力学性能的趋势。通过分析计算数据，我们提出了 MAX 相的弹性性能可以根据价电子浓度进行控制的观点。价电子浓度可以通过过渡金属和非金属元素的各种组合来调节。

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MAX 相的电子结构和结构性质的趋势：M(2)AlC（M = Sc、Ti、Cr、Zr、Nb、Mo、Hf 或 Ta）、M(2)AlN 和假设的 M(2)AlB 相的第一性原理研究。

Trends in electronic structures and structural properties of MAX phases: a first-principles study on M(2)AlC (M = Sc, Ti, Cr, Zr, Nb, Mo, Hf, or Ta), M(2)AlN, and hypothetical M(2)AlB phases.

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