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31 DEVELOPMENT OF EXHAUST CATALYST
APPLICATIONS [6] M. Ohashi: Shokubai, 29, 598–604 (1987).
0.10
Partial OSC (mol-O 2 /mol-Ce) 0.05 measuring temperature 300°C [10] N. Miyoshi, S. Matsumoto, M. Ozawa and M. Kimura:
1wt%Pt loading
[7] M. Funabiki, T. Yamada: SAE Paper 881684 (1988).
[8] M. Funabiki, T. Yamada: Shokubai, 31 (1989) 566.
durability test at 1000°C, 5 h
[9] Japanese Patent No. 1330556 (1986).
SAE Paper 891970 (1989).
[11] S. Matsumoto, N. Miyoshi, T. Kanazawa, M. Kimura
and M. Ozawa: Catalytic Science and Technology,
Vol. 1, (eds. S. Yoshida, T.N. Tabezawa and T. Ono),
(1991), 335, Kodansha-VCH, Tokyo, Weinheim, NY.
0
CeO 2 CZ8020 CZ5050 ACZ [12] H.C. Yao and Y.F. Yu Yao: J. Catal., 86 (1984) 254.
[13] A. Suda, Y. Ukyou, H. Sobukawa and M. Sugiura:
Figure 31.7 J. Ceram. Soc. Jpn., 110 (2002) 126–130.
Progress of partial OSC in each generation of CeO –ZrO 2 [14] A. Suda, K. Yamamura, Y. Ukyo, T. Sasaki,
2
solid solution partial OSC: Molar amount of O per 1 mol H. Sobukawa, T. Tanabe, Y. Nagai, M. Sugiura:
2
of Ce.
J. Ceram. Soc. Jpn, 112, 581–585 (2004).
[15] M. Ozawa, M. Kimura and A. Isogai: J. Alloys
Compd., 193 (1993) 73.
[16] M. Yashima, M. Yoshimura: Materia. Jpn., 34,
448–454 (1995).
[17] P. Fornasiero, R. Di Monte, Rao G. Ranga, J. Kaspar,
S. Meriani, A. Trovarelli and M. Graziani: J. Catal.,
151, 168–177 (1995).
[18] A. Trovarelli, F. Zamar, J. Llorca, C. Leitenburg,
G. Dolcetti and J.T. Kiss: J. Catal., 169, 490–502
(1997).
[19] A. Suda, T. Kandori, N. Terao, Y. Ukyo, H. Sobukawa
and M. Sugiura: J. Mater. Sci. Lett., 17, 89–90 (1998).
[20] Japanese Patent No. 3238316 (1995).
[21] A. Suda, H. Sobukawa, T. Suzuki, T. Kandori, Y. Ukyo
and M. Sugiura: J. Ceram. Soc. Jpn., 109, 177–180
(2001).
[22] M. Sugiura, M. Ozawa, A. Suda, T. Suzuki and
T. Kanazawa: Bull. Chem. Soc. Jpn., 78 (2005) 752–767.
[23] J.J. Casey, L. Katz and W.C. Orr: JCPDS-CARD 08-
0221, J. Am. Chem. Soc., 77, 2187 (1955).
[24] S. Yao, H. Morikawa, N. Izu and K. Okuda: J. Jpn.
Figure 31.8 Inst. Metals, 59–12, 1237 (1995).
Back-scattered electron image of ACZ, using scanning [25] S. Otsuka-Yao-Matsuo, T. Omata, N. Izu and
electron microscope, after 10-h durability test in air at H. Kishimoto: J. Solid State Chem., 138, 47–54 (1998).
1,000 C.
[26] H. Kishimoto, T. Omata, S. Otsuka-Yao-Matsuo,
K. Ueda, H. Hosono and H. Kawazoe: J Alloys
Compd., 312, 94–103 (2000).
Applications of concerning nanoparticle technol-
ogy in some developments of exhaust catalysts have [27] T. Sasaki, Y. Ukyo, A. Suda, M. Sugiura, K. Kuroda,
been described above. S. Arai and H. Saka: J. Ceram. Soc. Jpn., 111,
382–385 (2003).
[28] T. Kanazawa, J. Suzuki, T. Takada, T. Suzuki,
References
A. Morikawa, A. Suda, H. Sobukawa and M. Sugiura,
[1] Japanese Patent No. 865370 (1977). SAE Paper, 01-0811 (2003).
[2] Japanese Patent No. 935113 (1978). [29] P. Wynblatt, N.A. Gjostein: Prog. Solid. State. Chem.,
[3] Japanese Patent No. 958489 (1979). 9, 21 (1975).
[4] Japanese Patent No. 1033368 (1981). [30] T. Kanazawa, J. Suzuki, T. Takada, T. Suzuki,
[5] H.S. Gandhi, A.G. Piken, M. Shelef and R.G. Delesh: A. Morikawa, A. Suda, H. Sobukawa and M. Sugiura:
SAE Paper 760201 (1976). Stud. Surf. Sci. Catal., 145 (2002) 415.
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