Electronic structure and thermal stability of nitrided Hf silicate films using a direct N plasma

M. H. Cho; K. B. Chung; D. W. Moon

doi:10.1063/1.2374852

Electronic structure and thermal stability of nitrided Hf silicate films using a direct N plasma

M. H. Cho, K. B. Chung, D. W. Moon

Department of Physics

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

24 Citations (Scopus)

Abstract

The thermal stability and electronic structure of nitrided xHf O2 (100-x) Si O2 (HfSiO) (x=30%, 55%, and 70%), prepared using a direct N plasma treatment, were investigated. N 1s spectra of nitrided Hf silicate films indicate that complex chemical states are generated. In particular, energy states with a high binding energy are stable, even after a postnitridation annealing. The quantity of N incorporated into the film is not dependent on the mole fraction of Hf O2 in the film, while the thermal stability of the N in the film is significantly influenced by the fraction of Hf O2 present. The thermal stability of the N in the film critically affects the composition and thickness of the film: i.e., after the postnitridation annealing, the thickness of the silicate film and the quantity of Hf and N are decreased, as the result of the dissociation of unstable Hf-N bonds.

Original language	English
Article number	182908
Journal	Applied Physics Letters
Volume	89
Issue number	18
DOIs	https://doi.org/10.1063/1.2374852
Publication status	Published - 2006

Bibliographical note

Funding Information:
This work was partially supported by the National Program for Tera-level Nanodevices of the Ministry of Science and Technology as one of the 21st century Frontier Programs.

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/1.2374852

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title = "Electronic structure and thermal stability of nitrided Hf silicate films using a direct N plasma",

abstract = "The thermal stability and electronic structure of nitrided xHf O2 (100-x) Si O2 (HfSiO) (x=30%, 55%, and 70%), prepared using a direct N plasma treatment, were investigated. N 1s spectra of nitrided Hf silicate films indicate that complex chemical states are generated. In particular, energy states with a high binding energy are stable, even after a postnitridation annealing. The quantity of N incorporated into the film is not dependent on the mole fraction of Hf O2 in the film, while the thermal stability of the N in the film is significantly influenced by the fraction of Hf O2 present. The thermal stability of the N in the film critically affects the composition and thickness of the film: i.e., after the postnitridation annealing, the thickness of the silicate film and the quantity of Hf and N are decreased, as the result of the dissociation of unstable Hf-N bonds.",

author = "Cho, {M. H.} and Chung, {K. B.} and Moon, {D. W.}",

note = "Funding Information: This work was partially supported by the National Program for Tera-level Nanodevices of the Ministry of Science and Technology as one of the 21st century Frontier Programs.",

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T1 - Electronic structure and thermal stability of nitrided Hf silicate films using a direct N plasma

AU - Cho, M. H.

AU - Chung, K. B.

AU - Moon, D. W.

N1 - Funding Information: This work was partially supported by the National Program for Tera-level Nanodevices of the Ministry of Science and Technology as one of the 21st century Frontier Programs.

PY - 2006

Y1 - 2006

N2 - The thermal stability and electronic structure of nitrided xHf O2 (100-x) Si O2 (HfSiO) (x=30%, 55%, and 70%), prepared using a direct N plasma treatment, were investigated. N 1s spectra of nitrided Hf silicate films indicate that complex chemical states are generated. In particular, energy states with a high binding energy are stable, even after a postnitridation annealing. The quantity of N incorporated into the film is not dependent on the mole fraction of Hf O2 in the film, while the thermal stability of the N in the film is significantly influenced by the fraction of Hf O2 present. The thermal stability of the N in the film critically affects the composition and thickness of the film: i.e., after the postnitridation annealing, the thickness of the silicate film and the quantity of Hf and N are decreased, as the result of the dissociation of unstable Hf-N bonds.

AB - The thermal stability and electronic structure of nitrided xHf O2 (100-x) Si O2 (HfSiO) (x=30%, 55%, and 70%), prepared using a direct N plasma treatment, were investigated. N 1s spectra of nitrided Hf silicate films indicate that complex chemical states are generated. In particular, energy states with a high binding energy are stable, even after a postnitridation annealing. The quantity of N incorporated into the film is not dependent on the mole fraction of Hf O2 in the film, while the thermal stability of the N in the film is significantly influenced by the fraction of Hf O2 present. The thermal stability of the N in the film critically affects the composition and thickness of the film: i.e., after the postnitridation annealing, the thickness of the silicate film and the quantity of Hf and N are decreased, as the result of the dissociation of unstable Hf-N bonds.

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Electronic structure and thermal stability of nitrided Hf silicate films using a direct N plasma

Abstract

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