Korean Journal of Materials Research (한국재료학회지)

Materials Research Society of Korea (한국재료학회)
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fabrication of Zirconia Thin Films by Plasma Enhanced Metal-Organic Chemical Vapor Deposition

플라즈마 유기금속 화학증착을 이용한 지르코니아 박막제조

  • Kim, Gi-Dong (Research and Development Center, Korea Gas Corporation) ;
  • Jo, Yeong-A (Research and Development Center, Korea Gas Corporation) ;
  • Sin, Dong-Geun (Dept. of Merallurgy amd Materials Engineering, Hanyang University) ;
  • Jeon, Jin-Seok (Research and Development Center, Korea Gas Corporation) ;
  • Choe, Dong-Su (Research and Development Center, Korea Gas Corporation) ;
  • Park, Jong-Jin (Dept. of Merallurgy amd Materials Engineering, Hanyang University)
  • 김기동 (한국가스공사 연구개발원) ;
  • 조영아 (한국가스공사 연구개발원) ;
  • 신동근 (한양대학교 금속재료공학과) ;
  • 전진석 (한국가스공사 연구개발원) ;
  • 최동수 (한국가스공사 연구개발원) ;
  • 박종진 (한양대학교 금속재료공학과)
  • Published : 1999.02.01
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Abstract

Zirconia thin films of uniform structure were fabricated by plasma-enhanced metal-organic chemical vapor deposition. Deposition conditions such as substrate temperature were observed to have much influence on the formation of zirconia films, therefore the mechanism of decomposition of $Zr[TMHD]_4$precursor and film growth were examined by XRD, FT-IR etc., as well as the determination of the optimal deposition condition. From temperature dependence on zirconia, below the deposition temperature of 523K, the amorphous zirconia was formed while the crystalline of zirconia with preferred orientation of cubic (200) was obtained above the temperature. Deposits at low temperatures were investigated by FT-IR and the absorption band of films revealed that the zirconia thin film was in amorphous structure and has the same organic band as that of Zr precursor. In case of high temperature, it was found that Zr precursor was completely decomposed and crystalline zirconia was obtained. In addition, at 623K the higher RF power yielded the increased crystallinity of zirconia implying an increase in decomposition rate of precursor. However, it seems that RF power has nothing with the zirconia deposition process at 773K. It was found that the proper bubbler temperature of TEX>$Zr[TMHD]<_4$ precursor is needed along with high flow rate of carrier gas. Through AFM analysis it was determined that the growth mechanism of the zirconia thin film showed island model.

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References

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