Physical and electrical properties of graphene folds grown by Chemical Vapor Deposition

Wenjuan Zhu; Tony Low; Yu Zhu; Ageeth Bol; Hugen Yan; Xuesong Li; Yu-ming Lin; Yanqing Wu; Fengnian Xia; Vasili Perebeinos; Phaedon Avouris

Physical and electrical properties of graphene folds grown by Chemical Vapor Deposition

ORAL

Abstract

We found that there is a large density of wrinkles on CVD graphene transferred to a SiO$_{2}$/Si substrate. At these graphene wrinkles, the SEM signal intensity is lower, the AFM height is higher, and the Raman G-band intensity is stronger as compared to the surrounding single-layer graphene, due to extra layers of graphene at the wrinkles. TEM images confirmed that wide wrinkles are folds instead of ridges. The channel resistance near the Dirac point along graphene folds is significantly lower than the resistance without folds. However, as the gate field or the carrier density is increased, the difference between graphene channel along the fold and without the fold is reduced, due to carrier screening.

March 1, 2012, 4:18 PM – March 1, 2012, 4:30 PM

Authors

Wenjuan Zhu
- IBM T.J. Watson Research Center
Tony Low
- IBM T.J. Watson Research Center
Yu Zhu
- IBM T.J. Watson Research Center
- IBM T. J. Watson Research Center
Ageeth Bol
- IBM T.J. Watson Research Center
Hugen Yan
- IBM T.J. Watson Research Center
- IBM T. J. Watson Research Center
Xuesong Li
- IBM T.J. Watson Research Center
Yu-ming Lin
- IBM T.J. Watson Research Center
Yanqing Wu
- IBM T.J. Watson Research Center
Fengnian Xia
- IBM T.J. Watson Research Center
- IBM T. J. Watson Research Center
Vasili Perebeinos
- IBM T.J. Watson Research Center
- IBM - Watson
Phaedon Avouris
- IBM T.J. Watson Research Center
- IBM - Watson
- IBM, T.J. Watson Research Center, Yorktown Heights, NY 10598