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Design of Three-shell Icosahedral Matryoshka Clusters A@B12@A20 (A = Sn Pb; B = Mg Zn Cd Mn)

机译：三壳二十面体娃的设计A @ B12 @ A20（A = SnPb; B = MgZnCdMn）

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摘要

We propose a series of icosahedral matryoshka clusters of A@B12@A20 (A = Sn, Pb; B = Mg, Zn, Cd), which possess large HOMO-LUMO gaps (1.29 to 1.54 eV) and low formation energies (0.06 to 0.21 eV/atom). A global minimum search using a genetic algorithm and density functional theory calculations confirms that such onion-like three-shell structures are the ground states for these A21B12 binary clusters. All of these icosahedral matryoshka clusters, including two previously found ones, i.e., [As@Ni12@As20]³⁻ and [Sn@Cu12@Sn20]¹²⁻, follow the 108-electron rule, which originates from the high Ih symmetry and consequently the splitting of superatom orbitals of high angular momentum. More interestingly, two magnetic matryoshka clusters, i.e., Sn@Mn12@Sn20 and Pb@Mn12@Pb20, are designed, which combine a large magnetic moment of 28 µB, a moderate HOMO-LUMO gap, and weak inter-cluster interaction energy, making them ideal building blocks in novel magnetic materials and devices.

机译：我们提出了一系列A @ B12 @ A20的二十面体套娃簇（A = Sn，Pb; B = Mg，Zn，Cd），它们具有较大的HOMO-LUMO间隙（1.29至1.54 eV）和低形成能（0.06至0.21 eV /原子）。使用遗传算法和密度泛函理论计算进行的全局最小搜索证实，这种洋葱状的三壳结构是这些A21B12二元簇的基态。接下来是所有这些二十面体娃的簇，包括两个先前发现的簇，即[As @ Ni12 @ As20] ^{3-和[Sn @ Cu12 @ Sn20] ^{12- 108电子法则源自高Ih对称性，因此源自高角动量超原子轨道的分裂。更有趣的是，设计了两个磁娃簇，即Sn @ Mn12 @ Sn20和Pb @ Mn12 @ Pb20，它们结合了28 µB的大磁矩，中等的HOMO-LUMO间隙和弱的簇间相互作用能，使它们成为新型磁性材料和设备的理想构建基块。}}

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期刊名称 Scientific Reports
作者
Xiaoming Huang; Jijun Zhao; Yan Su; Zhongfang Chen; R. Bruce King;
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年(卷),期 -1(4),-1
年度 -1
页码 6915
总页数 7
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Design of Three-shell Icosahedral Matryoshka Clusters A@B12@A20 (A = Sn Pb; B = Mg Zn Cd Mn)

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