Controlled Formation of Sharp Zigzag and Armchair Edges in Graphitic Nanoribbons
Xiaoting Jia(Oak Ridge National Laboratory), Mario Hofmann(Oak Ridge National Laboratory), Vincent Meunier(Oak Ridge National Laboratory), Bobby G. Sumpter(Oak Ridge National Laboratory), Jessica Campos‐Delgado(Oak Ridge National Laboratory), J. M. Romo-Herrera(Oak Ridge National Laboratory), Hyungbin Son(Oak Ridge National Laboratory), Ya‐Ping Hsieh(Oak Ridge National Laboratory), Alfonso Reina(Oak Ridge National Laboratory), Jing Kong(Oak Ridge National Laboratory), Mauricio Terrones(Oak Ridge National Laboratory), M. S. Dresselhaus(Oak Ridge National Laboratory)
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Abstract
Graphene nanoribbons can exhibit either quasi-metallic or semiconducting behavior, depending on the atomic structure of their edges. Thus, it is important to control the morphology and crystallinity of these edges for practical purposes. We demonstrated an efficient edge-reconstruction process, at the atomic scale, for graphitic nanoribbons by Joule heating. During Joule heating and electron beam irradiation, carbon atoms are vaporized, and subsequently sharp edges and step-edge arrays are stabilized, mostly with either zigzag- or armchair-edge configurations. Model calculations show that the dominant annealing mechanisms involve point defect annealing and edge reconstruction.
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