Title :
Modulation of Schottky Barrier Height of Metal/TaN/n-Ge Junctions by Varying TaN Thickness
Author :
Wu, Zheng ; Huang, Wei ; Li, Cheng ; Lai, Hongkai ; Chen, Songyan
Author_Institution :
Dept. of Phys., Xiamen Univ., Xiamen, China
fDate :
5/1/2012 12:00:00 AM
Abstract :
This paper demonstrates experimentally the modulation of the Schottky barrier height (SBH) of metal/TaN/n-Ge junctions by varying the TaN thickness in a dual stacked metal layer. The effective SBH for the metal/TaN/n-Ge Schottky junctions, originally pinned at 0.53-0.61 eV, decays to 0.44 eV, the barrier height of TaN/n-Ge, with an increase in the TaN thickness from 0 to 10 nm, independent of the type of metal. Dipole formation at the TaN/Ge interface is proposed to alleviate the metal-induced gap states and shift the pinning level toward the conduction band. The modulation of the SBH can be ascribed to the interdiffusion between the cap metals (Al, Fe, and Ni) and TaN.
Keywords :
Schottky barriers; Schottky diodes; conduction bands; elemental semiconductors; germanium; semiconductor junctions; tantalum compounds; Ge; Schottky barrier height modulation; Schottky diodes; TaN-Ge; cap metals; conduction band; dipole formation; dual stacked metal layer; electron volt energy 0.44 eV; electron volt energy 0.53 eV to 0.61 eV; metal-Schottky junctions; metal-induced gap states; pinning level shift; size 0 nm to 10 nm; Educational institutions; Iron; Junctions; Modulation; Nickel; Schottky diodes; Germanium; Schottky barrier height (SBH); interface phenomena;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2012.2187455
