Title :
Controlling the Interface Dynamics at Au Nanoparticle–Oxide Interfaces
Author :
Kraya, Ramsey A. ; Kraya, Laura Y.
Author_Institution :
Univ. of Pennsylvania, Philadelphia, PA, USA
Abstract :
With interface sizes rapidly reducing to the nanometer scale, it has become vital to understand how size and structure can affect transport behavior between materials in order to tune the energy barrier for various applications. In this study, the fabrication of Schottky barriers between 20 nm Au nanoparticles and Nb-doped SrTiO3 substrates is reported. The calculated barrier height and ideality factors are compared for dopant concentrations ranging over three orders of magnitude. The results show that the lowest doped substrates exhibit transport characteristics dominated by thermionic emission while the highest doped substrates are dominated by tunneling and the transition is best described by classical theory with the addition of edge effects to account for nonideal behavior.
Keywords :
Schottky barriers; gold; interface structure; metal-insulator boundaries; nanoparticles; thermionic emission; tunnelling; Au-SrTiO3:Nb; Schottky barrier fabrication; dopant concentration; doped substrate; edge effect; interface dynamics; interface size; nanometer scale; nanoparticle-oxide interface; thermionic emission; transport characteristics; Gold; Nanoparticles; Nanoscale devices; Schottky barriers; Substrates; Thermionic emission; Tunneling; Interface phenomena; Schottky barriers; nanotechnology; semiconductor device doping; surface treatment;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2011.2160458
