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Abstract
Density functional theory calculations are used to assess the effect of dopant removal within the experimental quasi-hexagonal Mg4C60 material [Meirzadeh et al. Nature, 613, 71-76, 2023]. A number of geometries at each dopant ratio are considered, with each dopant ratio displaying a wide range of possible electronic structures. As such, the electronic properties are found to depend primarily on geometric factors, rather than on dopant ratios. We find that the interplay of interlayer distance and average Mg-Mg distance can be used to explain electronic structures at each dopant ratio.
Supplementary materials
Title
Supplementary Information
Description
Contains the initial structure and removal mechanism for all Mg doped structures studied. As well as density of states for all Mg3C60, Mg2C60 and MgC60 structures studied. Lastly, this contains key geometric and electronic data (Energy, Cohesive Energy, Average Inter-layer Distance, In-plane c.o.m distance, Average Mg-Mg distance, Minimum Mg-Mg distance and Bandgap) for all Mg3C60, Mg2C60 and MgC60 structures studied.
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Title
Relaxed Structures
Description
Zip file containing the structures studied energetically optimised.
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