Pressure-Induced High-Energy-Density BeN6 Materials: First-Principles study
IF 3.1
3区 材料科学
Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
引用次数: 0
Abstract
Recently, the use of polymeric nitrogen in the search for high-energy–density materials (HEDMs) has attracted widespread attention. However, synthesizing polymeric nitrogen materials is quite challenging; for instance, the synthesis of cubic gauche nitrogen requires a high pressure of 110 GPa. Previous theoretical predictions and experiments have shown that adding alkaline earth metals as cationic ligands can stabilize polymeric nitrogen and reduce the synthesis pressure. Using the USPEX structural prediction code and first-principles calculations, this study predicted 2 new nitrogen salt with nitrogen contents up to 89.80 %, namely -BeN and -BeN, with their unique nitrogen chain structures, have energy densities as high as 3.32 and 3.59 kJ/g, respectively. The exceptional explosive properties reveal these two BeN are potential HEDMs. In addition, -BeN is a direct bandgap semiconductor.压力诱导的高能量密度 BeN6 材料:第一原理研究
最近,利用聚合氮寻找高能量密度材料(HEDMs)引起了广泛关注。然而,合成聚合氮材料具有相当大的挑战性;例如,合成立方高气氮需要 110 GPa 的高压。以往的理论预测和实验表明,添加碱土金属作为阳离子配体可以稳定聚合氮并降低合成压力。本研究利用 USPEX 结构预测代码和第一性原理计算,预测出两种含氮量高达 89.80% 的新型氮盐,即 -BeN 和 -BeN,它们具有独特的氮链结构,能量密度分别高达 3.32 和 3.59 kJ/g。其特殊的爆炸特性表明,这两种 BeN 是潜在的 HEDM。此外,-BeN 还是一种直接带隙半导体。
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来源期刊
Computational Materials Science
工程技术-材料科学:综合
CiteScore
6.50
自引率
6.10%
发文量
665
审稿时长
26 days
期刊介绍:
The goal of Computational Materials Science is to report on results that provide new or unique insights into, or significantly expand our understanding of, the properties of materials or phenomena associated with their design, synthesis, processing, characterization, and utilization. To be relevant to the journal, the results should be applied or applicable to specific material systems that are discussed within the submission.
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