Journal of Powder Materials (한국분말재료학회지)

The Korean Powder Metallurgy & Materials Institute (한국분말재료학회 (*구 분말야금학회))
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Synthesis of Nanostructured Ceria Powders for an Oxygen-sensor by Thermochemical Process

열화학적 방법에 의한 산소센서용 세리아 나노분말 합성

  • Lee Dong-Won (Powder Materials Center Korea Institute of Machinery and Materials (KIMM)) ;
  • Choi Joon-Hwan (Powder Materials Center Korea Institute of Machinery and Materials (KIMM)) ;
  • Lim Tae-Soo (Powder Materials Center Korea Institute of Machinery and Materials (KIMM)) ;
  • Kim Yong-Jin (Powder Materials Center Korea Institute of Machinery and Materials (KIMM))
  • Published : 2006.06.01
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Abstract

The nanostructured cerium oxide powders were synthesized by spray thermal decomposition process for the use as the raw materials of resistive oxygen sensor. The synthesis routes consisted of 1) spray drying of water based organic solution made from cerium nitrate hydrate ($Ce(NO_3){_3}6H_2O$) and 2) heat treatment of spray dried precursor powders at $400^{\circ}C$ in air atmosphere to remove the volatile components and identically to oxidize the cerium component. The produced powders have shown the loose structure agglomerated with extremely fine cerium oxide particles with about 15 nm and very high specific surface area ($110m^2/g$). The oxygen sensitivity, n ($Log{\propto}Log (P_{O2}/P^o)^{-n}$ and the response time, $t_{90}$ measured at $600^{\circ}C$ in the sample sintered at $1000^{\circ}C$, were about 0.25 and 3 seconds, respectively, which had much higher performances than those known in micron or $100{\sim}200nm$ sized sensors.

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References

  1. M. Ogita, K. Higo, Y. Nakanishi, and Y. Hatanaka: Appl. Surf. Sci., 175 (2001) 721 https://doi.org/10.1016/S0169-4332(01)00058-7
  2. D. Pribat and G. Velasco: Sens. Actuat., B13 (1998) 173
  3. Noriya Izu, Woosuck Shin, and Norimitsu Murayama: Sens. Actuat., B94 (2003) 222
  4. Noriya Izu, Woosuck Shin, and Norimitsu Murayama: Sens. Actuat., B100 (2004) 411
  5. U. Lamp, J. Gerblinger, and H. Meixner: Sens. Actuat., B7 (1992) 787
  6. J. Gerblinger, W. Lohwasser, U. Lampe, and H. Meixner: Sens. Actuat., B26-27 (1995) 93
  7. D.W. Lee and B.K. Kim: Mater. Lett., 58 (2004) 378 https://doi.org/10.1016/S0167-577X(03)00505-6
  8. Piotr Jasinski, Toshio Suzuki, and H.D.Anderson: Sens. Actuat., B95 (2003) 73
  9. Noriya Izu, Woosuck Shin, and Norimitsu Murayama: Sens. Actuat., B87 (2002) 99
  10. M.A. Panhans and R.N. Blumenthal: Solid State Ionics, 60 (1993) 279 https://doi.org/10.1016/0167-2738(93)90006-O
  11. Y.M. Chiang, E.B. Lavik, I. Kosaaki, H.L. Tuller, and J.Y. Ying: J. Electroceram., 1 (1997) 7 https://doi.org/10.1023/A:1009934829870
  12. Noriya lzu, Woosuck Shin, and Norimitsu Murayama: Sens. Actuat., B93 (2003) 449
  13. Noriya lzu, Woosuck Shin, and Norimitsu Murayama: Sens. Actuat., B87 (2002) 95
  14. T. Suzuki, I. Kosacki, H.D. Anderson, and P. Colomban: J. Am. Ceram. Soc., 84 (2001) 2007 https://doi.org/10.1111/j.1151-2916.2001.tb00950.x