石墨烯二烯一种新的类 sp2 石墨烯纳米片

IF 3.1 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
José A.S. Laranjeira , Nicolas F. Martins , Pablo A. Denis , Julio R. Sambrano
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引用次数: 0

摘要

由于许多新型二维(2D)碳基材料适用于储能系统、热电设备和催化应用,因此对这些材料的争夺和发现愈演愈烈。因此,本研究向科学界介绍了一种名为 "石墨烯二乙烯(GPD)"的新型二维纳米片,它是由环丁二烯基团和双苯基基团排列形成的具有十八角、六角和四方环的单层。GPD 的内聚能分别只比石墨烯和联苯高 1.37 和 0.65 eV/原子。分子动力学模拟证实了其结构和热稳定性。GPD 单层保持稳定,在 1000 K 左右的温度下没有明显的变形,只有在 1500 K 的温度下才会发生几何解体,形成无定形的石墨二乙烯。GPD 电子结构在 Γ 点显示出 1.26 eV 的直接带隙转变。此外,GPD 的弹性常数 C11 = 157.62 N/m、C12 = 53.66 N/m 和 C66 = 51.98 N/m,满足机械稳定性的 Born-Huang 标准。贝德尔拓扑分析表明,所有键都具有很强的共壳特性。最后,振动分析确定了 54 种模式,其中 21 种为拉曼活性模式,A1g 和 E2g 模式在 1347、1685 和 1697 cm-1 处的光谱中占主导地位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Graphenyldiene: A new sp2-graphene-like nanosheet

The race and the discovery of novel two-dimensional (2D) carbon-based materials have been intensified because many are suitable for energy storage systems, thermoelectric devices, and catalysis applications. Therefore, this study introduces to the scientific community a novel 2D nanosheet named graphenyldiene (GPD), which is formed by arranging cyclobutadiene and bi-phenyl groups to create a monolayer with octadecagonal, hexagonal and tetragonal rings. The cohesive energy of GPD is only 1.37 and 0.65 eV/atom higher than graphene and biphenylene, respectively. Molecular dynamics simulations confirmed its structural and thermal stability. The GPD monolayer remains stable, with no significant deformations at around 1000 K, and the disintegration of the geometry occurs only at a temperature of 1500 K, which is characterized by the formation of an amorphous graphdiyne. The GPD electronic structure shows a direct band gap transition, 1.26 eV, at the Γ point. GPD is a promising alternative to electronic devices due to its carrier mobility of around 103.cm2/V.s. Also, the GPD satisfies the Born-Huang criterion for mechanical stability with elastic constants C11 = 157.62 N/m, C12 = 53.66 N/m and C66 = 51.98 N/m. The Bader's topological analysis indicated that all bonds have strong shared shell characteristics. Finally, the vibrational analysis identified 54 modes, where 21 are Raman active, with A1g and E2g modes dominating the spectrum at 1347, 1685 and 1697 cm−1.

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来源期刊
Carbon Trends
Carbon Trends Materials Science-Materials Science (miscellaneous)
CiteScore
4.60
自引率
0.00%
发文量
88
审稿时长
77 days
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