Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2010-12-03
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
20 pages, 4 figures
Scientific paper
Graphene nanostrips with single or a few layers can be made into bending resonators with extremely high sensitivity to environment changes. In this work we study the effect of interlayer shear on resonant frequencies f of graphene nanostrips, via both molecular dynamics (MD) simulation and elastic model analysis incorporating interlayer shear. Contrary to the classical thin beam theory prediction f~nl^-2 (l is beam length and n layer number), MD simulation results reveal very different dependences, f~l^-1.36 and f - fmono~(n-1)/n (fmono is frequency of the monolayer beam). Interlayer shear modulus of multilayer graphene strips is much smaller than their intralayer Young's modulus, and the weak interlayer interaction can not maintain the registry between the carbon atoms in adjacent layers. Large shear deformation occurs during vibration of multilayer graphene nano-strips. Therefore we propose a multi-beam shear model (MBSM) with the interlayer shear energy of multilayer graphene nano-strips taken into account. It makes predictions consistent excellently with direct MD simulations without any fitting parameter required. The results are of importance for various applications of multi-layer graphene nano-strips, such as in nano-electromechanical devices including resonators, sensors and actuators, where interlayer shear has apparent impacts to deformation, vibration, and energy dissipation processes.
Liu Yi-lun
Xu Zhiping
Zheng Quan-shui
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