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Hierarchical graphene architectures (HGAs) that grow by stacking of layers are produced on a liquid copper surface using chemical vapor deposition. The stacking mode — for example hexagonal–hexagonal–hexagonal or hexagonal–snowflake–dendritic — can be simply controlled. Measurements of the electrical properties of HGAs indicate that hierarchical stacking of graphene may be a simple and effective way...
A layered stacking growth route for the hierarchical assembly of graphene on a liquid copper catalyst by chemical vapor deposition is described by G. Yu and co‐workers on page 3218. These hierarchical graphene architectures, displaying a snow‐like morphology, reveal the non‐equilibrium growth processes of multi‐layer graphene and present electrical anisotropy. This work potentially offers impetus...
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