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van der Waals interactions between graphitic nanowiggles

The van der Waals interactions between two parallel graphitic nanowiggles (GNWs) are calculated using the coupled dipole method (CDM). The CDM is an efficient and accurate approach to determine such interactions explicitly by taking into account the discrete atomic structure. Our findings show that the van der Waals forces vary from attraction to repulsion as nanoribbons move along their lengths with respect to each other. This feature leads to a number of stable and unstable positions of the system during the movement process. These positions can be tuned by changing the length of GNW. Moreover, the influence of the thermal effect on the van der Waals interactions is also extensively investigated. This work would give good direction for both future theoretical and experimental studies.

preprint2013arXivOpen access
Anh D. PhanLilia M. WoodsThe-Long Phan
cond-mat.mes-hallcond-mat.mtrl-sciquant-ph
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Anh D. PhanLilia M. WoodsThe-Long Phan

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