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Part A: Materials Science

Adsorption of alkali and alkaline earth metal atoms and dimers on monolayer germanium carbide

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Pages 155-167 | Received 10 Aug 2016, Accepted 11 Oct 2016, Published online: 28 Oct 2016
 

Abstract

First-principles plane wave calculations have been performed to study the adsorption of alkali and alkaline earth metals on monolayer germanium carbide (GeC). We found that the favourable adsorption sites on GeC sheet for single alkali and alkaline earth adatoms are generally different from graphene or germanene. Among them, Mg, Na and their dimers have weakly bounded to GeC due to their closed valence electron shells, so they may have high mobility on GeC. Two different levels of adatom coverage ( and ) have been investigated and we concluded that different electronic structures and magnetic moments for both coverages owing to alkali and alkaline earth atoms have long range electrostatic interactions. Lithium atom prefers to adsorbed on hollow site similar to other group-IV monolayers and the adsorption results in metallisation of GeC instead of semiconducting behaviour. Na and K adsorption can induce 1 total magnetic moment on GeC structures and they have shown semiconductor property which may have potential use in spintronic devices. We also showed that alkali or alkaline earth metal atoms can form dimer on GeC sheet. Calculated adsorption energies suggest that clustering of alkali and alkaline earth atoms is energetically favourable. All dimer adsorbed GeC systems have nonmagnetic semiconductor property with varying band gaps from 0.391 to 1.311 eV which are very suitable values for various device applications.

Acknowledgements

Computing resources used in this work were provided by the TUBITAK (The Scientific and Technical Research Council of Turkey) ULAKBIM, High Performance and Grid Computing Center (Tr-Grid e Infrastructure).

Notes

No potential conflict of interest was reported by the authors.

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