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Self-Assembly of a Two-Dimensional Sheet with Ta@Si<sub>16</sub> Superatoms and Its Magnetic and Photocatalytic Properties

Jia Liu, Ping Guo, Jiming Zheng, Puju Zhao, Zhenyi Jiang, Lei Shen

2020The Journal of Physical Chemistry C24 citationsDOI

Abstract

The development of new functional materials with a rational design, controllable assembly, and tunable property is highly demanded. Here, we take the experimentally synthesized Ta@Si16 superatom as a building block to design several low-lying Ta@Si16 dimers and self-assembled two-dimensional (2D) sheets, and then study their structural stability and magnetic and photocatalytic properties as well as potential applications by density functional theory and molecular dynamics. Our results show that the Ta@Si16 superatom can maintain its cage frame of geometric structure in all of these self-assembled structures at room temperature. It is found that the honeycomb hexagonal lattice Hex-d structure, the line-contact and the face-contact Ta@Si16/C60 interfacial structures are three new semiconductors with band gaps of 0.89, 0.43, and 1.32 eV, respectively. As an intrinsic ferromagnet, the line-contact Ta@Si16/C60 structure has a Curie temperature of 294 K. Furthermore, our study shows that the face-contact Ta@Si16/C60 one might be a good photocatalyst.

Topics & Concepts

SuperatomDensity functional theoryMaterials scienceSemiconductorPhotocatalysisFerromagnetismNanotechnologyChemical physicsCondensed matter physicsChemistryComputational chemistryOptoelectronicsPhysicsBiochemistryCatalysis2D Materials and ApplicationsGraphene research and applicationsMXene and MAX Phase Materials
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