| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1862948 | Physics Letters A | 2012 | 5 Pages |
We performed molecular dynamics (MD) simulations to investigate the self-assembly of a free-standing graphene nano-ribbon (GNR). It was found that the kinetic pathway of a GNR is dictated by both the complex energy landscape, which drives the GNR towards a low energy regular conformation, and the formation of locking frustrations, which traps the GNR at a metastable state with an irregular conformation. For an initially planar GNR, we observed a regularly folded conformation over a finite range of GNR lengths. Using an energy minimization approach, we were able to predict the number of folds in this regularly folded conformation.
► Explored the evolutionary kinetic pathway of a GNR during self-assembly. ► Observed that locking frustration traps the GNR in a local energy minima. ► Identified several distinctive conformation zones for initially planar GNR. ► Interestingly, one conformation zone is that of a regularly folded conformation. ► Performed thermodynamics analysis on the GNR self-assembled conformation.
