Doped graphene nanohole arrays for flexible transparent conductors

Liu, Jianwei; Xu, Guowei; Rochford, Caitlin; Lu, Rongtao; Wu, Judy Z.; Edwards, Christina M.; Berrie, Cindy L.; Chen, Zhijun; Maroni, Victor A.

View/Open

Liu.pdf (906.7Kb)

Issue Date

2011-07-15

Author

Liu, Jianwei

Xu, Guowei

Rochford, Caitlin

Lu, Rongtao

Wu, Judy Z.

Edwards, Christina M.

Berrie, Cindy L.

Chen, Zhijun

Maroni, Victor A.

Publisher

AIP Publishing LLC

Type

Article

Article Version

Scholarly/refereed, publisher version

Metadata

Show full item record

Abstract

Graphene nanohole arrays (GNAs) were fabricated using nanoimprint lithography. The improved optical transmittance of GNAs is primarily due to the reduced surface coverage of graphene from the nanohole fabrication. Importantly, the exposed edges of the nanoholes provided effective sites for chemical doping using thionyl chloride was shown to enhance the conductance by a factor of 15–18 in contrast to only 2-4 for unpatterned graphene. GNAs can provide a unique scheme for improving both optical transmittance and electrical conductivity of graphene-based transparent conductors.

Citation

Liu, J., G. Xu, C. Rochford, R. Lu, J. Wu, C. M. Edwards, C. L. Berrie, Z. Chen, and V. A. Maroni. "Doped graphene nanohole arrays for flexible transparent conductors." Appl. Phys. Lett. 99, 023111 (2011). http://dx.doi.org/10.1063/1.3610939

The University of Kansas prohibits discrimination on the basis of race, color, ethnicity, religion, sex, national origin, age, ancestry, disability, status as a veteran, sexual orientation, marital status, parental status, gender identity, gender expression and genetic information in the University’s programs and activities. The following person has been designated to handle inquiries regarding the non-discrimination policies: Director of the Office of Institutional Opportunity and Access, IOA@ku.edu, 1246 W. Campus Road, Room 153A, Lawrence, KS, 66045, (785)864-6414, 711 TTY.