Local Variations of Graphene Electronic Structure Probed by STM.

Victor Brar; Yuanbo Zhang; Caglar Girit; Alex Zettl; Michael F. Crommie

Local Variations of Graphene Electronic Structure Probed by STM.

ORAL

Abstract

Transport measurements on devices made from exfoliated graphene sheets have shown that graphene has a high mobility and long mean free path. However, the role that disorder plays in these measurements remains unknown, as does the source of the disorder. In order to better understand the causes of disorder on the local scale, we have performed scanning tunneling spectroscopy measurements on gated graphene flakes at 4.2K in an UHV environment. Our spectroscopy measurements show local variations in graphene electronic properties at different length scales. These variations are analyzed in terms of graphene 2D electronic structure.

March 13, 2008, 7:24 AM – March 13, 2008, 7:36 AM

Authors

Victor Brar
- Dept. of Physics at U.C. Berkeley / Lawrence Berkeley National Lab
- Dept. of Physics, UC Berkeley/Lawrence Berkeley Laboratory
Yuanbo Zhang
- Dept. of Physics at U.C. Berkeley
- Dept. of Physics, UC Berkeley
Caglar Girit
- Dept. of Physics at U.C. Berkeley
- Dept. of Physics, UC Berkeley/Lawrence Berkeley Laboratory
- UC Berkeley, LBNL
Alex Zettl
- University of California, Berkeley
- University of California at Berkeley
- Dept. of Physics at U.C. Berkeley / Lawrence Berkeley National Lab
- Dept. of Physics, UC Berkeley/Lawrence Berkeley Laboratory
- UC Berkeley, LBNL
Michael F. Crommie
- University of California at Berkeley
- Dept. of Physics at U.C. Berkeley / Lawrence Berkeley National Lab
- Dept. of Physics, UC Berkeley/Lawrence Berkeley Laboratory