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Paper detail

Electric field-controlled rippling of graphene

Metal/graphene interfaces generated by electrode deposition induce barriers or potential modulations influencing the electronic transport properties of graphene based devices. However, their impact on the local mechanical properties of graphene is much less studied. Here we show that graphene near a metallic interface can exhibit a set of ripples self-organized in domains whose topographic roughness is controlled by the tip bias of a scanning tunneling microscope. The reconstruction from topographic images of graphene bending energy maps sheds light on the local electro-mechanical response of graphene under STM imaging and unveils the role of the stress induced by the vicinity of graphene/metal interface in the formation and the manipulation of these ripples. Since microscopic rippling is one of the important factors that limit charge carrier mobility in graphene, the control of rippling with a gate voltage may have important consequences in the conductance of graphene devices where transverse electric fields are created by contactless suspended gate electrodes. This opens also the possibility to dynamically control the local morphology of graphene nanomembranes.

preprint2014arXivOpen access
Zoltán OsváthFrançois LeflochVincent BouchiatClaude Chapelier
cond-mat.mes-hall
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Zoltán OsváthFrançois LeflochVincent BouchiatClaude Chapelier

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