Paramita Dutta, Santanu K. Maiti, S. N. Karmakar
Published 2013-03-19, updated 2013-07-18Version 2
The characteristics of energy band spectrum of armchair graphene nanoribbons in presence of line defect are analyzed within a simple non-interacting tight-binding framework. In metallic nanoribbons an energy gap may or may not appear in the band spectrum depending on the location of the defect line, while in semiconducting ribbons the gaps are customized, yielding the potential applicabilities of graphene nanoribbons in nanoscale electronic devices. With a more general model, we also investigate two-terminal electron transport using Green's function formalism.
Comments: 7 pages, 8 figures
Journal: Journal of Applied Physics, Volume 114, Issue 3, Page 034306 (2013)
Flat-band ferromagnetism in armchair graphene nanoribbons
Two-terminal transport in biased lattices: transition from ballistic to diffusive current
Dynamics of four- versus two-terminal transport through chaotic quantum cavities
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