Theoretical research on novel orthorhombic tungsten dinitride from first principles calculations

Li Qian; Wang Jianyun; Liu Hanyu

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Theoretical research on novel orthorhombic tungsten dinitride from first principles calculations

机译：从第一个原则计算的新型正交钨二氮化物的理论研究

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Tungsten nitrides have been intensely studied for technological applications owing to their unique mechanical, chemical, and thermal properties. Combining first-principles calculations with an unbiased structural searching method (CALYPSO), we uncovered a novel orthorhombic structure with a space group Cmc2(1) as the thermodynamically most stable phase for tungsten dinitride (WN2) between 46-113 GPa. The computed elastic constants and phonons reveal that the Cmc2(1)-WN2 structure is dynamically stable at atmospheric pressure. Moreover, hardness calculations indicate that this structure is likely to become a hard material. Our current results may stimulate further experimental work on synthesizing these technologically important materials and improve the understanding of the pressure-induced phase transitions of other transition-metal light-element compounds.

机译：由于其独特的机械，化学品和热性能，钨氮化钨对技术应用进行了密集的研究。将具有非偏见的结构搜索方法（Calypso）结合的第一原理计算，我们发现具有空间组CMC2（1）的新型正交结构，作为钨二氮化物（Wn2）的热力学最稳定的相。计算的弹性常数和声子显示CMC2（1）-WN2结构在大气压下动态稳定。此外，硬度计算表明该结构可能成为硬质材料。我们目前的结果可能刺激在合成这些技术重要材料的进一步实验工作，提高对其他过渡金属轻质化合物的压力诱导的相变的理解。

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来源
《RSC Advances》 |2018年第17期|共5页
作者
Li Qian; Wang Jianyun; Liu Hanyu;
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Binzhou Univ Coll Aeronaut Engn Binzhou 256600 Peoples R China;

Jilin Univ State Key Lab Superhard Mat Changchun 130012 Jilin Peoples R China;

Carnegie Inst Sci Geophys Lab Washington DC 20015 USA;

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正文语种 eng
中图分类化学;
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1. Theoretical research on novel orthorhombic tungsten dinitride from first principles calculations [J] . Li Qian, Wang Jianyun, Liu Hanyu RSC Advances . 2018,第17期

机译：从第一个原则计算的新型正交钨二氮化物的理论研究
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7. Theoretical research on novel orthorhombic tungsten dinitride from first principles calculations [O] . Qian Li, Jianyun Wang, Hanyu Liu 2018

机译：从第一个原则计算的新型正交钨二氮化物的理论研究

Theoretical research on novel orthorhombic tungsten dinitride from first principles calculations

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