Thermodynamic considerations in the stability of binary oxides for alternative gate dielectrics in complementary metal–oxide–semiconductors

Stemmer, Susanne

doi:10.1116/1.1688357

Cited by 110 publications

(74 citation statements)

References 60 publications

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“…The SiO gas is related to each reaction [13][14][15]. Thermal stability in reactions (1)- (3) can be estimated thermodynamically using Gibbs' free energies.…”

Section: Resultsmentioning

confidence: 99%

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Interfacial reaction in ZrO2/Si gate-stack structure probed by photoemission spectroscopy combined with combinatorial annealing system

Okabayashi

Toyoda

Takahashi

et al. 2006

e-J. Surf. Sci. Nanotechnol.

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We have investigated the mechanism of Zr silicidation from ZrO2/Si gate-stack structure in ultralarge-scaledintegration devices by high-resolution core-level photoemission spectroscopy with annealing-temperature controlling. We have found that the interfacial SiO2 layer thickness is tunable by controlling the annealing temperature and the silicidation occurs in the narrow annealing-temperature ranges. New method by combinatorial annealing system enables to control the narrow-range annealing temperature for the observation of the silicidation processes and to discuss the silicidation chemical reaction thermodynamically based on the annealing-temperature dependence in core-level photoemission spectra.

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“…The SiO gas is related to each reaction [13][14][15]. Thermal stability in reactions (1)- (3) can be estimated thermodynamically using Gibbs' free energies.…”

Section: Resultsmentioning

confidence: 99%

“…3. In order to estimate the difference in Gibbs' free energy (∆G) for each reaction, SiO-gas contributions are evaluated as the term for the gas, −RT ln P SiO [13][14][15]. Interfacial reactions occur by following three steps.…”

Section: Resultsmentioning

confidence: 99%

Interfacial reaction in ZrO2/Si gate-stack structure probed by photoemission spectroscopy combined with combinatorial annealing system

Okabayashi

Toyoda

Takahashi

et al. 2006

e-J. Surf. Sci. Nanotechnol.

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“…Moreover, zirconia is claimed to be a good catalyst that has acidic, basic, reducing and oxidizing surface properties. In modern industry, zirconia has been widely used in various fields such as high-temperature fuel cells [3,4], structural ceramics [5], gas sensors [6,7], and as an insulator in metal oxide semiconductor devices [8,9]. Zirconia was used also as a support and/or catalyst material with unique properties in a great variety * E-mail: rehamfattah2012@gmail.com of reactions.…”

Section: Introductionmentioning

confidence: 99%

Effects of thermal treatment and fluoride ion doping on surface and catalytic properties of NiO–ZrO₂catalysts

Fattah

Kiwaan

Ahmed

et al. 2016

Materials Science-Poland

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ZrO 2 and a series of NiO/ZrO 2 hydrogels (5 to 25 wt.% NiO) were co-precipitated with the aid of NaOH-Na 2 C 2 O 4 solution. Two fluorinated hydrogels were also prepared by wet impregnation method. The samples were calcined in the temperature range of 550 to 850 • C. The surface properties of the samples were determined using DTA, XRD and nitrogen adsorption at −196 • C. The conversion of isopropanol was tested using microcatalytic pulse technique. DTA measurements showed that the addition of nickel oxide to zirconia influences the phase transition of ZrO 2 . XRD revealed that the tetragonal phase was formed at T 650 • C, while a biphasic mixture was obtained at T 750 • C. No spinel structure was detected by both DTA and XRD techniques and only traces of cubic NiO were detected for the samples containing 15 wt.% nickel oxide and calcined at T 750 • C. Significant changes in texture, surface acidity and catalytic activity were found as a result of the effects of thermal treatment and chemical composition. Incorporation of fluoride ions greatly increased the surface acidity and consequently enhanced the dehydration activity. It has been found that dehydration activity is related to the amount of surface acidity while the dehydrogenation of this alcohol is sensitive to NiO content.

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“…In HfO 2 gate dielectric stacks, SiO 2 -rich interfacial layers are often present at the interface with Si, either as a result of oxidizing growth or annealing conditions [2] or because they are intentionally grown as a nucleation layer before high-k deposition [3]. The chemistry of these interfacial layers and the nature of their interaction with the HfO 2 film are of great practical interest as they determine the electrical and dielectric properties of the gate stack.…”

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confidence: 99%

Detection and mobility of hafnium in SiO2

Klenov¹,

Mates²,

Stemmer³

2006

Applied Physics Letters

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High-angle annular dark-field imaging in scanning transmission electron microscopy and x-ray photoelectron spectroscopy were used to investigate thermal SiO2 layers doped with Hf by ion implantation. Hf was mobile under the focused electron beam in the as-implanted samples. After annealing for 5min at 1200°C, clusters of crystalline HfO2 were observed that were a few nanometers in size and surrounded by residual Hf that had remained trapped in the SiO2. Hf was not mobile under the electron beam in the annealed samples. Further annealing caused an expansion of the SiO2 that was damaged by ion implantation. Hf rearrangement was confined to the ion beam damaged regions of the SiO2 layer. No diffusion of Hf into the undamaged SiO2 was observed. The implications of the results for complementary metal-oxide-semiconductor transistors with HfO2 gate dielectrics are discussed.

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Thermodynamic considerations in the stability of binary oxides for alternative gate dielectrics in complementary metal–oxide–semiconductors

Cited by 110 publications

References 60 publications

Interfacial reaction in ZrO2/Si gate-stack structure probed by photoemission spectroscopy combined with combinatorial annealing system

Interfacial reaction in ZrO2/Si gate-stack structure probed by photoemission spectroscopy combined with combinatorial annealing system

Effects of thermal treatment and fluoride ion doping on surface and catalytic properties of NiO–ZrO₂catalysts

Detection and mobility of hafnium in SiO2

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Thermodynamic considerations in the stability of binary oxides for alternative gate dielectrics in complementary metal–oxide–semiconductors

Cited by 110 publications

References 60 publications

Interfacial reaction in ZrO2/Si gate-stack structure probed by photoemission spectroscopy combined with combinatorial annealing system

Interfacial reaction in ZrO2/Si gate-stack structure probed by photoemission spectroscopy combined with combinatorial annealing system

Effects of thermal treatment and fluoride ion doping on surface and catalytic properties of NiO–ZrO2catalysts

Detection and mobility of hafnium in SiO2

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Effects of thermal treatment and fluoride ion doping on surface and catalytic properties of NiO–ZrO₂catalysts