A composite oxide is provided which has large oxygen absorption and desorption over a wide temperature range, in particular in a higher temperature range of not lower than 700° C. and/or in a lower temperature range of not higher than 400° C. The composite oxide contains oxygen, R composed of at lea
A composite oxide is provided which has large oxygen absorption and desorption over a wide temperature range, in particular in a higher temperature range of not lower than 700° C. and/or in a lower temperature range of not higher than 400° C. The composite oxide contains oxygen, R composed of at least one of Ce and Pr, and Zr at a particular ratio, and optionally a particular ratio of M composed of at least one element selected from alkaline earth metals and the like.
대표청구항▼
1. A composite oxide comprising: oxygen,R consisting of at least one element selected from Ce and Pr, andZr,wherein a content of R is not less than 10 at % and not more than 90 at % and a content of Zr is not less than 10 at % and not more than 90 at %, with a total amount of elements other than oxy
1. A composite oxide comprising: oxygen,R consisting of at least one element selected from Ce and Pr, andZr,wherein a content of R is not less than 10 at % and not more than 90 at % and a content of Zr is not less than 10 at % and not more than 90 at %, with a total amount of elements other than oxygen being 100 at %,wherein said composite oxide is free of a tetragonal crystal phase originated from zirconium oxide,wherein an electron diffraction pattern of said composite oxide appears as dotted diffraction spots, andwherein said composite oxide has a specific surface area of not larger than 2 m2/g. 2. The composite oxide according to claim 1, wherein an amount of oxygen desorbed by said composite oxide at 400° C. is not less than 300 μmol/g. 3. The composite oxide according to claim 2, wherein a content of Ce is not less than 0 at % and not more than 70 at %, a content of Pr is not less than 20 at % and not more than 90 at %, a content of Zr is not less than 10 at % and not more than 80 at %, and a content of R is not less than 20 at % and not more than 90 at %, with the total amount of elements other than oxygen being 100 at %. 4. The composite oxide according to claim 1, wherein an amount of oxygen desorbed by said composite oxide at 700° C. is not less than 600 μmol/g. 5. The composite oxide according to claim 4, wherein a content of Ce is not less than 20 at % and not more than 90 at %, a content of Pr is not less than 0 at % and not more than 70 at %, a content of Zr is not less than 10 at % and not more than 70 at %, and a content of R is not less than 30 at % and not more than 90 at %, with the total amount of elements other than oxygen being 100 at %. 6. The composite oxide according to claim 1, wherein an amount of oxygen desorbed by said composite oxide at 400° C. is not less than 300 μmol/g, and at 700° C. is not less than 600 μmol/g. 7. The composite oxide according to claim 6, wherein a content of Ce is not less than 20 at % and not more than 90 at %, a content of Pr is not less than 0 at % and not more than 70 at %, a content of Zr is not less than 10 at % and not more than 60 at %, and a content of R is not less than 40 at % and not more than 90 at %, with the total amount of elements other than oxygen being 100 at %. 8. A composite oxide comprising: oxygen,R consisting of at least one element selected from Ce and Pr,Zr, andM consisting of at least one element selected from the group consisting of alkaline earth metals, rare earth elements other than R, transition metal elements other than rare earth elements and Zr, halogen elements, B, C, Si, and S,wherein a content of R is not less than 10 at % and not more than 90 at %, a content of Zr is not less than 10 at % and less than 90 at %, and a content of M is more than 0 at % and not more than 20 at %, with a total amount of elements other than oxygen being 100 at %,wherein said composite oxide is free of a tetragonal crystal phase originated from zirconium oxide,wherein an electron diffraction pattern of said composite oxide appears as dotted diffraction spots, andwherein said composite oxide has a specific surface area of not larger than 2 m2/g. 9. The composite oxide according to claim 8, wherein an amount of oxygen desorbed by said composite oxide at 400° C. is not less than 300 μmol/g. 10. The composite oxide according to claim 9, wherein a content of Ce is not less than 0 at % and not more than 70 at %, a content of Pr is not less than 20 at % and not more than 90 at %, a content of Zr is not less than 10 at % and less than 80 at %, a content of M is more than 0 at % and not more than 20 at %, and a content of R is not less than 20 at % and not more than 90 at %, with the total amount of elements other than oxygen being 100 at %. 11. The composite oxide according to claim 8, wherein an amount of oxygen desorbed by said composite oxide at 700° C. is not less than 600 μmol/g. 12. The composite oxide according to claim 11, wherein a content of Ce is not less than 20 at % and not more than 90 at %, a content of Pr is not less than 0 at % and not more than 70 at %, a content of Zr is not less than 10 at % and less than 70 at %, a content of M is more than 0 at % and not more than 20 at %, and a content of R is not less than 30 at % and not more than 90 at %, with the total amount of elements other than oxygen being 100 at %. 13. The composite oxide according to claim 8, wherein an amount of oxygen desorbed by said composite oxide at 400° C. is not less than 300 μmol/g and at 700° C. is not less than 600 μmol/g. 14. The composite oxide according to claim 13, wherein a content of Ce is not less than 20 at % and not more than 90 at %, a content of Pr is not less than 0 at % and not more than 70 at %, a content of Zr is not less than 10 at % and less than 60 at %, a content of M is more than 0 at % and not more than 20 at %, and a content of R is not less than 40 at % and not more than 90 at %, with the total amount of elements other than oxygen being 100 at %.
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