Thermal annealing effects on the atomic layer deposited LaAlO3 thin films on Si substrate

Dail Eom; Cheol Seong Hwang; Hyeong Joon Kim; Mann Ho Cho; K. B. Chung

doi:10.1149/1.2916437

Thermal annealing effects on the atomic layer deposited LaAlO₃ thin films on Si substrate

Dail Eom, Cheol Seong Hwang, Hyeong Joon Kim, Mann Ho Cho, K. B. Chung

Department of Physics

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

The changes in film structure of amorphous atomic layer deposited LaAlO3 thin films after thermal annealing were examined by medium-energy ion-scattering measurements and angle-resolved X-ray photoelectron spectroscopy. Thermal annealing induces Si-rich LaSiO and Al-deficient LaAlx Siy Oz layers on a few monolayers of SiO2. Al atoms do not participate in silicate formation during annealing. Instead, they migrate toward the film surface, which induces nonhomogeneity in the films along the vertical direction. The concentrations of Al and La on the film surface increase and decrease, respectively, as a result of Si diffusion from the substrate and silicate formation.

Original language	English
Pages (from-to)	G33-G36
Journal	Electrochemical and Solid-State Letters
Volume	11
Issue number	7
DOIs	https://doi.org/10.1149/1.2916437
State	Published - 2008

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abstract = "The changes in film structure of amorphous atomic layer deposited LaAlO3 thin films after thermal annealing were examined by medium-energy ion-scattering measurements and angle-resolved X-ray photoelectron spectroscopy. Thermal annealing induces Si-rich LaSiO and Al-deficient LaAlx Siy Oz layers on a few monolayers of SiO2. Al atoms do not participate in silicate formation during annealing. Instead, they migrate toward the film surface, which induces nonhomogeneity in the films along the vertical direction. The concentrations of Al and La on the film surface increase and decrease, respectively, as a result of Si diffusion from the substrate and silicate formation.",

author = "Dail Eom and Hwang, {Cheol Seong} and Kim, {Hyeong Joon} and Cho, {Mann Ho} and Chung, {K. B.}",

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T1 - Thermal annealing effects on the atomic layer deposited LaAlO3 thin films on Si substrate

AU - Eom, Dail

AU - Hwang, Cheol Seong

AU - Kim, Hyeong Joon

AU - Cho, Mann Ho

AU - Chung, K. B.

PY - 2008

Y1 - 2008

N2 - The changes in film structure of amorphous atomic layer deposited LaAlO3 thin films after thermal annealing were examined by medium-energy ion-scattering measurements and angle-resolved X-ray photoelectron spectroscopy. Thermal annealing induces Si-rich LaSiO and Al-deficient LaAlx Siy Oz layers on a few monolayers of SiO2. Al atoms do not participate in silicate formation during annealing. Instead, they migrate toward the film surface, which induces nonhomogeneity in the films along the vertical direction. The concentrations of Al and La on the film surface increase and decrease, respectively, as a result of Si diffusion from the substrate and silicate formation.

AB - The changes in film structure of amorphous atomic layer deposited LaAlO3 thin films after thermal annealing were examined by medium-energy ion-scattering measurements and angle-resolved X-ray photoelectron spectroscopy. Thermal annealing induces Si-rich LaSiO and Al-deficient LaAlx Siy Oz layers on a few monolayers of SiO2. Al atoms do not participate in silicate formation during annealing. Instead, they migrate toward the film surface, which induces nonhomogeneity in the films along the vertical direction. The concentrations of Al and La on the film surface increase and decrease, respectively, as a result of Si diffusion from the substrate and silicate formation.

UR - http://www.scopus.com/inward/record.url?scp=43949094522&partnerID=8YFLogxK

U2 - 10.1149/1.2916437

DO - 10.1149/1.2916437

M3 - Article

AN - SCOPUS:43949094522

SN - 1099-0062

VL - 11

SP - G33-G36

JO - Electrochemical and Solid-State Letters

JF - Electrochemical and Solid-State Letters

IS - 7

ER -

Thermal annealing effects on the atomic layer deposited LaAlO₃ thin films on Si substrate

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