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Quantum Chemistry Study on the Structures and Electronic Properties of Bimetallic Ca2-Doped Magnesium Ca2Mgn (n = 1–15) Clusters

Chenggang Li, Yingqi Cui, Hao Tian, Baozeng Ren, Qingyang Li, Yuanyuan Li, Hang Yang

2022Nanomaterials17 citationsDOIOpen Access PDF

Abstract

Here, by utilizing crystal structure analysis through the particle swarm optimization (CALYPSO) structural searching method with density functional theory (DFT), we investigate the systemic structures and electronic properties of Ca2Mgn (n = 1–15) clusters. Structural searches found that two Ca atoms prefer to occupy the external position of magnesium-doped systems at n = 2–14. Afterward, one Ca atom begins to move from the surface into the internal of the caged skeleton at n = 15. Calculations of the average binding energy, second-order difference of energies, and HOMO–LUMO gaps indicated that the pagoda construction Ca2Mg8 (as the magic cluster) has higher stability. In addition, the simulated IR and Raman spectra can provide theoretical guidance for future experimental and theoretical investigation. Last, further electronic properties were determined, including the charge transfer, density of states (DOS) and bonding characteristics. We hope that our work will provide theoretical and experimental guidance for developing magnesium-based nanomaterials in the future.

Topics & Concepts

Density functional theoryMagnesiumBimetallic stripElectronic structureCluster (spacecraft)Raman spectroscopyHOMO/LUMODopingAtom (system on chip)Chemical physicsComputational chemistryMaterials scienceChemistryPhysicsMoleculeMetalOrganic chemistryComputer scienceQuantum mechanicsProgramming languageOptoelectronicsEmbedded systemMXene and MAX Phase MaterialsInorganic Chemistry and MaterialsBoron and Carbon Nanomaterials Research
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