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High Resolution Transmission Electron Microscopy Study of Thermal Oxidation of Single Crystalline Aluminum Nitride

Published online by Cambridge University Press:  01 February 2011

Jharna Chaudhuri ,
Rac Gyu Lee ,
Luke Owuor Nyakiti ,
Zheng Gu ,
James H Edgar  and
Peng Li
Jharna Chaudhuri
Affiliation:
jharna.chaudhuri@ttu.edu, Texas Tech University, Mechanical Engineering, 7th Street & Boston Avenue, Lubbock, TX, 79409-1021, United States, (806) 742-3563 ext 224, (806) 742-3540
Rac Gyu Lee
Affiliation:
rac.lee@ttu.edu, Texas Tech University, Mechanical Engineering Department, 7th Street & Boston Ave, Lubbock, TX, 79409-1021, United States
Luke Owuor Nyakiti
Affiliation:
luke.nyakiti@ttu.edu, Texas Tech University, Mechanical Engineering Department, 7th Street & Boston Ave, Lubbock, TX, 79409-1021, United States
Zheng Gu
Affiliation:
Zheng Gu [guzheng@ksu.edu], Kansas State University, Chemical Engineering Department, Manhattan, KS, 66506, United States
James H Edgar
Affiliation:
edgarjh@ksu.edu, Kansas State University, Chemical Engineering Department, Manhattan, KS, 66506, United States
Peng Li
Affiliation:
Peng Li [pengli@unm.edu], Univ. of New Mexico, Earth and Planetary Science Department, Albuquerque, NM, 87131, United States
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Abstract

The impact of process conditions and crystal properties on the structure of thermal oxides formed on AlN were determined by high resolution transmission electron microscopy (HRTEM). Oxidation for 2 hours at both 800 ° and 1000 °C produced mostly amorphous oxide layers whereas oxidation for 4 and 6 hours at 1000 °C produced partly crystalline and epitaxial oxide layers. The crystalline oxide was mostly single phase á-Al2O3 except at the surface where it was a mixture of γ-Al2O3 and á-Al2O3. The amorphous oxide layer first transformed to γ-Al2O3 and then to the stable á-Al2O3 as evidenced by the non-uniform thickness of the oxide and the existence of the γ-Al2O3 at the surface. The AlN crystal contained a high density of defects at the interface at 800 °C but it was nearly defect- and oxygen-free at 1000 °C. This could be due to the rapid diffusion of the nitrogen and aluminum interstitials at high temperatures leading to a point defect equilibrium throughout the nitride. A faceted interface between Al2O3 and AlN could be attributed to non-uniform out diffusion of aluminum.

Keywords

dislocationsoxidationdefects
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 955: Symposium I – Advances in III-V Nitride Semiconductor Materials and Devices , 2006 , 0955-I09-01
Copyright
Copyright © Materials Research Society 2007

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References

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