Single electron behaviors of DNA-mediated Au Nanoparticle Assebly

Sung-In Kim; Young-Wook Chang; Jeong-Do Yang; Kyung-Hwa Yoo

Single electron behaviors of DNA-mediated Au Nanoparticle Assebly

POSTER

Abstract

We have fabricated single electron transistors (SET) using DNA-assisted assembly of Au nanoparticles and investigated electrical transport properties of fabricated devices. Most devices exhibited clear Coulomb blockade and Coulomb oscillations, indicating that DNA molecules play a role of tunneling barriers. However, in contrast to conventional single electron transistors, the different periods of Coulomb oscillations are found at different temperatures. Based on orthodox Coulomb blockade model, we propose that the temperature dependence of Coulomb oscillation period is ascribed to the temperature dependence of junction capacitances.

^*This work is supported by National Reseach Center for Nanomedical Technology (Grant R15-2004-024-00000-0)

Authors

Sung-In Kim
- Department of Physics, Yonsei University
Young-Wook Chang
- Department of Physics, Yonsei University
Jeong-Do Yang
- Department of Physics, Yonsei University
Kyung-Hwa Yoo
- Department of Physics
- Dept. of Physics and National Core Research Center for Nanomedical Technology, Yonsei Univ.
- Department of Physics, Yonsei University
- Dept. of Physics and National Core Research Center for Nanomedical Technologyl, Yonsei University
- Dept. of Physic
- Dept. of Physics and National Core Research Center for Nanomedical Technology, Yonsei University