Marcelo Lopes Pereira, Jr, Emanuel J. A. dos Santos, Luiz Antonio Ribeiro, Jr, Douglas Soares Galvão
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引用次数: 0
摘要
最近合成的二维原子单层金(Goldene)为探索新型材料开辟了新途径。然而,多层金何时转变为块状金的问题仍然悬而未决。本研究利用密度泛函理论计算来解决这一基本问题。我们的研究结果表明,多层金烯保留了多达六层的 AA-层叠构型,没有观察到石墨烯中出现的伯纳尔-层叠现象。金烯在七层时自发过渡到类体金结构,采用了类体面心立方(FCC)金的斜方体(ABC)堆积特征。在超过十层时,原子排列完全趋同于体金晶格。量子一致性对电子特性有很大影响,单层和块状金烯在布里渊区的 X 点表现出单一的狄拉克锥。相比之下,多层金烯在 X 点和 Y 点显示出两个狄拉克锥。此外,单层金烯还表现出各向异性的光吸收,这在块状金中是不存在的。这项研究加深了人们对多层金烯的结构和电子特性以及一般堆叠二维材料的理解。
The recent synthesis of Goldene, a 2D atomic monolayer of gold, has opened
new avenues in exploring novel materials. However, the question of when
multilayer Goldene transitions into bulk gold remains unresolved. This study
used density functional theory calculations to address this fundamental
question. Our findings reveal that multilayer Goldene retains an AA-like
stacking configuration of up to six layers, with no observation of Bernal-like
stacking as seen in graphene. Goldene spontaneously transitions to a bulk-like
gold structure at seven layers, adopting a rhombohedral (ABC-like) stacking
characteristic of bulk face-centered cubic (FCC) gold. The atomic arrangement
converges entirely to the bulk gold lattice for more than ten layers. Quantum
confinement significantly impacts the electronic properties, with monolayer and
bulk Goldene exhibiting a single Dirac cone at the X-point of the Brillouin
zone. In contrast, multilayer Goldene shows two Dirac cones at the X- and
Y-points. Additionally, monolayer Goldene exhibits anisotropic optical
absorption, which is absent in bulk gold. This study provides a deeper
understanding of multilayer Goldene's structural and electronic properties and
stacked 2D materials in general.
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