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Monitoring defects on monolayer graphene using nematic liquid crystals

Authors :
Young Jin Lim
Seung Hee Lee
Van Luan Nguyen
You Ri Kwon
Joong Hee Lee
Byung Hoon Lee
Young Hee Lee
G. Murali
Young Eun Choi
Source :
OPTICS EXPRESS(23): 11
Publication Year :
2015

Abstract

Defects in graphene governs electrical and optical properties. Although grain boundaries in graphene inevitably formed during large area synthesis process, which act as scattering centers for charge carriers to degrade mobility, have been studied extensively, point defects have been rarely investigated mainly due to the absence of facile observation tools. Here, we report polarized optical microscopy to observe defect distributions in monolayer graphene. This was realized by aligning liquid crystal s (LC) on graphene where the defect population was modulated by irradiating ultraviolet (UV) light directly on graphene surface under moisture condition. Aromatic rings in LC molecules are oriented with hexagonal rings in graphene to have preferred orientation, providing a way to identify relative orientations of graphene domains and point defects. Our studies show that point defects generated by prolonged UV irradiation time give rise to irregular LC alignment with disclination lines on the graphene surface and a large-size LC domain associated with graphene single domain eventually disappeared. This indicates that defects associated with oxygen-containing functional groups cause to reduce the strong stacking interaction between graphene and LC molecules. (C) 2015 Optical Society of America

Details

Language :
English
Database :
OpenAIRE
Journal :
OPTICS EXPRESS(23): 11
Accession number :
edsair.doi.dedup.....53b4cddbeae37361af81854169c218ab