Electronic Transport in B- and N-doped Fullerenes: BC_{59}, BC_{60}, NC_{59 } and NC_{60}

Xiaoliang Zhong; Ravindra Pandey; Alexandre Reily Rocha; Shashi Karna

Electronic Transport in B- and N-doped Fullerenes: BC$_{59}, $BC$_{60}$, NC$_{59 }$ and NC$_{60}$

ORAL

Abstract

The electron transport via boron and nitrogen doped fullerenes (i.e. BC$_{60}$, NC$_{60}$, BC$_{59}$ and NC$_{59})$ are studied using first principles methods coupled with non-equilibrium Green's Function formalism. The predicted conductivity for the doped fullerene is higher than that of the pristine fullerene. A substantial conduction is predicted for BC$_{59}$ at higher bias voltage of $>$1.0 V. The hybrid states near the Fermi region involving contact gold atoms appear to play an important role in determining the conductivity of these systems.

March 19, 2010, 8:24 AM – March 19, 2010, 8:36 AM

Authors

Xiaoliang Zhong
- Michigan Tech, Houghton, MI
Ravindra Pandey
- Michigan Tech, Houghton, MI
Alexandre Reily Rocha
- University of S\~ao Paulo, S\~ao Paulo, Brazil
- University of ABC
Shashi Karna
- US Army Research Laboratory, APG, MD