Title :
Analysis of Junction Leakage Current Failure of Nickel Silicide Abnormal Growth Using Advanced Transmission Electron Microscopy
Author :
Kudo, S. ; Hirose, Y. ; Yamaguchi, Toru ; Kashihara, K. ; Maekawa, Keiichi ; Asai, Kikuo ; Murata, Norio ; Katayama, Takeo ; Asayama, K. ; Hattori, Nobuyuki ; Koyama, Tomofumi ; Nakamae, Koji
Author_Institution :
Renesas Electron. Corp., Itami, Japan
Abstract :
This is the first paper to reveal the formation mechanism of the abnormal growth of nickel silicide that causes leakage-current failure in complementary metal-oxide- semiconductor (CMOS) devices by using advanced transmission electron microscope (TEM) techniques: electron tomography and spatially-resolved electron energy-loss spectroscopy (EELS). We reveal that the abnormal growth of Ni silicide results in a single crystal of NiSi2 and that it grows toward Si <;110> directions along (111) planes with the Ni diffusion through the silicon interstitial sites. In addition, we confirm that the abnormal growth is related to crystal microstructure and crystal defects. These detailed analyses are essential to understand the formation mechanism of abnormal growths of Ni silicide.
Keywords :
CMOS integrated circuits; crystal defects; crystal microstructure; interstitials; leakage currents; nickel compounds; semiconductor growth; tomography; transmission electron microscopy; CMOS devices; NiSi2; advanced transmission electron microscopy; crystal defects; crystal microstructure; electron tomography; junction leakage current failure; nickel silicide abnormal growth; silicon interstitial sites; spatially resolved electron energy loss spectroscopy; Crystals; Junctions; Microscopy; Nickel; Silicides; Silicon; Tomography; Complementary metal–oxide–semiconductor (CMOS); electron energy-loss spectroscopy; electron microscope; electron tomography; nickel silicide; transmission;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
DOI :
10.1109/TSM.2013.2284593
