The structures and properties of Mon (n = 2∼15) cluster

[Display omitted] •The stable isomers of Mon (n = 2∼15) are determined by global search genetic algorithm combined with DFT calculations.•Some new ground-state structures are found.•The stabilities, electronic structures, the properties of bonding and spectral as well as the polarizabilities are als...

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Bibliographic Details
Published inComputational and theoretical chemistry Vol. 1212
Main Authors Yin, Yue-Hong, Chen, Jing
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2022
Subjects
DFT
Genetic algorithm
Mo cluster
Stability
Structure
DFT
Stability
Structure
Genetic algorithm
Mo cluster
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Summary:[Display omitted] •The stable isomers of Mon (n = 2∼15) are determined by global search genetic algorithm combined with DFT calculations.•Some new ground-state structures are found.•The stabilities, electronic structures, the properties of bonding and spectral as well as the polarizabilities are also explored. The stable isomers of Mon (n=2∼15) are determined by using genetic algorithm combined with DFT calculations. Some new ground-state structures are found. The 3D structure firstly appears for Mo4 and the distorted pyramid or prism isomers are energy favored for n = 4∼9, while icosahedron-like or cage-like structures are dominant for n = 10∼15. Mo3, Mo5, Mo7, Mo8, Mo11 and Mo13 are magic number clusters. There are small magnetic moments and vertical electron affinity but large vertical ionization potential for Mon. The electronic structure analysis indicates that there form strong Mo-Mo covalent bonds, which are also delocalization to a certain extent due to the 4d and 5s orbital hybridization. The IR and UV–vis spectra are acquired and the particularly large hyper polarizability of Mo9 also suggests that it can be used as a nonlinear optical material.
ISSN:2210-271X
DOI:10.1016/j.comptc.2022.113720