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A universal substrate‐engineering approach to fabricate 2D graphene superlattices down to the nanometer scale is developed based on substrate‐induced site‐selective chemical reactions on the graphene basal plane. On page 2148, Z. Liu and co‐workers demonstrate that various 2D graphene superlattices with tuneable periodicities and chemical functionalities can be made using this technique.
2D graphene superlattices are fabricated down to the nanometer scale by a universal substrate‐engineering approach, based on substrate‐induced site‐selective chemical reactions on the graphene basal plane. Various 2D graphene superlattices with tunable periodicities and chemical functionalities are made by using SiO2 nanosphere assemblies and other nanostructured substrates.
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