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Paper detail

Electromechanical Oscillations in Bilayer Graphene

Nanoelectromechanical systems (NEMS) constitute a class of devices lying at the interface between fundamental research and technological applications. Integrating novel materials such as graphene into NEMS allows studying their mechanical and electromechanical characteristics at the nanoscale and addressing fundamental questions such as electron-phonon interaction and bandgap engineering. In this work, we integrate single and bilayer graphene into NEMS and probe the interplay between their mechanical and electrical properties. We show that the deflection of monolayer graphene nanoribbons results in a linear increase in their electrical resistance. Surprisingly, we observe oscillations in the electromechanical response of bilayer graphene. The proposed theoretical model suggests that these oscillations arise from quantum mechanical interference taking place due to the lateral displacement of graphene layers with respect to each other. Our work shows that bilayer graphene conceals unexpectedly rich and novel physics with promising potential in NEMS-based applications.

preprint2015arXivOpen access
Muhammed Malik BenameurFernando GargiuloSajedeh ManzeliGabriel AutesMahmut TosunOleg V. YazyevAndras Kis
cond-mat.mes-hall
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Muhammed Malik BenameurFernando GargiuloSajedeh ManzeliGabriel AutesMahmut TosunOleg V. YazyevAndras Kis

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