Interface Defects in HfO2, LaSiOx, and Gd2O3 High-k/MetalGate Structures on Silicon
Artikel i vetenskaplig tidskrift, 2008

In this work, we present experimental results examining the energy distribution of the relatively high (>1×10^11 cm−2) electrically active interface defects which are commonly observed in high-dielectric-constant (high-k) metal–insulator–silicon systems during high-k process development. This paper extends previous studies on the Si(100)/SiOx/HfO2 system to include a comparative analysis of the density and energy distribution of interface defects for HfO2, lanthanum silicate (LaSiOx), and Gd2O3 thin films on (100) orientation silicon formed by a range of deposition techniques. The analysis of the interface defect density across the energy gap, for samples which experience no H2/N2 annealing following the gate stack formation, reveals a peak density (~2×10^12 cm−2 eV−1 to ~1×10^13 cm−2 eV−1) at 0.83–0.92 eV above the silicon valence bandedge for the HfO2, LaSiOx, and Gd2O3 thin films on Si(100). The characteristic peak in the interface state density (0.83–0.92 eV) is obtained for samples where no interface silicon oxide layer is observed from transmission electron microscopy. Analysis suggests silicon dangling bond (Pbo) centers as the common origin for the dominant interface defects for the various Si(100)/SiOx/high-k/metal gate systems. The results of forming gas (H2/N2) annealing over the temperature range 350–555°C are presented and indicate interface state density reduction, as expected for silicon dangling bond centers. The technological relevance of the results is discussed.

Författare

P.K. Hurley

K. Cherkaoui

E O'Connor

M.C. Lemme

H.D.B. Gottlob

M. Schmidt

S. Hall

Y. Lu

O. Buiu

Bahman Raeissi

Chalmers, Teknisk fysik, Fysikalisk elektronik

Johan Piscator

Chalmers, Teknisk fysik, Fysikalisk elektronik

Olof Engström

Chalmers, Teknisk fysik, Fysikalisk elektronik

S.B. Newcomb

J. Electrochem. Soc.

Vol. 155 2 G13-G20

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Elektroteknik och elektronik