The effect of Stone-Thrower-Wales defects on mechanical properties of graphene sheets - A molecular dynamics study

LC He and SS Guo and JC Lei and ZD Sha and ZS Liu, CARBON, 75, 124-132 (2014).

DOI: 10.1016/j.carbon.2014.03.044

The mechanical properties of graphene may be strongly affected by defects. In our work, the effects of the orientation and tilting angles of Stone-Thrower-Wales (STW, 5-7-7-5) defects on the mechanical properties of graphene have been investigated based on molecular dynamics simulations. When there is one centred STW defect including STW-1 defect and STW-2 defect, our study reveals that the orientation with respect to the chirality governs the mechanical properties of graphene. For STW-1 defective graphene, the strength of the armchair direction is much lower than that of zigzag direction. While the circumstance for STW-2 defective graphene is opposite, the strength of the armchair direction is much higher than the strength of the zigzag direction. Furthermore, when there is more than one STW defect, the mechanical properties of graphene depends on the tilting angle of STW defects. The breaking strength of graphene decreases with the increasing tilting angle. Our present work could provide significant insights into the effect of STW defects on the mechanical properties of graphene. (C) 2014 Elsevier Ltd. All rights reserved.

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