Issue 30, 2018

Inducing regioselective chemical reactivity in graphene with alkali metal intercalation

Abstract

First principles calculations demonstrate that alkali metal atoms, intercalated between metal substrates and adsorbed graphene monolayers, induce localised regions of increased reactivity. The extent of this localisation is proportional to the size of the alkali atom and the strength of the graphene–substrate interaction. Thus, larger alkali atoms are more effective (e.g. K > Na > Li), as are stronger-interacting substrates (e.g. Ni > Cu). Despite the electropositivity of these alkali metal adsorbates, analysis of charge transfer between the alkali metal, the substrate and the adsorbed graphene layer indicates that charge transfer does not give rise to the observed regioselective reactivity. Instead, the increased reactivity induced in the graphene structure is shown to arise from the geometrical distortion of the graphene layer imposed by the intercalated adsorbed atom. We show that this strategy can be used with arbitrary adsorbates and substrate defects, provided such structures are stable, towards controlling the mesoscale patterning and chemical functionalisation of graphene structures.

Graphical abstract: Inducing regioselective chemical reactivity in graphene with alkali metal intercalation

Supplementary files

Article information

Article type
Paper
Submitted
07 May 2018
Accepted
10 Jul 2018
First published
10 Jul 2018

Phys. Chem. Chem. Phys., 2018,20, 19987-19994

Author version available

Inducing regioselective chemical reactivity in graphene with alkali metal intercalation

I. Mitchell, S. Irle and A. J. Page, Phys. Chem. Chem. Phys., 2018, 20, 19987 DOI: 10.1039/C8CP02903B

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