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Hafnium-doped tantalum oxide high-k gate dielectric films for future CMOS technology

A novel high-k gate dielectric material, i.e., hafnium-doped tantalum oxide (Hf-doped
TaOx), has been studied for the application of the future generation metal-oxidesemiconductor
field effect transistor (MOSFET). The film's electrical, chemical, and
structural properties were investigated experimentally. The incorporation of Hf into TaOx
impacted the electrical properties. The doping process improved the effective dielectric
constant, reduced the fixed charge density, and increased the dielectric strength. The
leakage current density also decreased with the Hf doping concentration. MOS capacitors
with sub-2.0 nm equivalent oxide thickness (EOT) have been achieved with the lightly
Hf-doped TaOx. The low leakage currents and high dielectric constants of the doped films
were explained by their compositions and bond structures. The Hf-doped TaOx film is a
potential high-k gate dielectric for future MOS transistors.
A 5 ÃÂ
tantalum nitride (TaNx) interface layer has been inserted between the Hf-doped
TaOx films and the Si substrate to engineer the high-k/Si interface layer formation and
properties. The electrical characterization result shows that the insertion of a 5 ÃÂ
TaNx
between the doped TaOx films and the Si substrate decreased the film's leakage current density and improved the effective dielectric constant (keffective) value. The improvement
of these dielectric properties can be attributed to the formation of the TaOxNy interfacial
layer after high temperature O2 annealing. The main drawback of the TaNx interface layer
is the high interface density of states and hysteresis, which needs to be decreased.
Advanced metal nitride gate electrodes, e.g., tantalum nitride, molybdenum nitride,
and tungsten nitride, were investigated as the gate electrodes for atomic layer deposition
(ALD) HfO2 high-k dielectric material. Their physical and electrical properties were
affected by the post metallization annealing (PMA) treatment conditions. Work functions
of these three gate electrodes are suitable for NMOS applications after 800°C PMA.
Metal nitrides can be used as the gate electrode materials for the HfO2 high-k film.
The novel high-k gate stack structures studied in this study are promising candidates
to replace the traditional poly-Si-SiO2 gate stack structure for the future CMOS
technology node.

Identiferoai:union.ndltd.org:tamu.edu/oai:repository.tamu.edu:1969.1/4714
Date25 April 2007
CreatorsLu, Jiang
ContributorsKuo, Yue
PublisherTexas A&M University
Source SetsTexas A and M University
Languageen_US
Detected LanguageEnglish
TypeBook, Thesis, Electronic Dissertation, text
Format7811974 bytes, electronic, application/pdf, born digital

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