Enhanced Semiconductor Nanocrystal Conductance via Solution Grown Contacts
Article 2009 en
Authors
MS
Matthew Sheldon
PT
Paul-Emile Trudeau
TM
Taleb Mokari
Abstract
1 min read
We report a 100000-fold increase in the conductance of individual CdSe nanorods when they are electrically contacted via direct solution phase growth of Au tips on the nanorod ends. Ensemble UV-vis and X-ray photoelectron spectroscopies indicate this enhancement does not result from alloying of the nanorod. Rather, low temperature tunneling and high temperature (250-400 K) thermionic emission across the junction at the Au contact reveal a 75% lower interface barrier to conduction compared to a control sample. We correlate this barrier lowering with the electronic structure at the Au-CdSe interface. Our results emphasize the importance of a nanocrystal surface structure for robust device performance and the advantage of this contact method.
Matthew R. Hauwiller, Xingchen Ye, Matthew R. Jones, Cindy M. Chan, Jason J. Calvin, Michelle F. Crook, Haimei Zheng, Paul Alivisatos, Matthew R. Hauwiller, Xingchen Ye, Matthew R. Jones, Cindy M. Chan, Jason J. Calvin, Michelle F. Crook, Haimei Zheng, Paul Alivisatos
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