An exhaust gas purifying catalyst with an excellent effect of suppressing deterioration due to aggregation of a noble metal catalyst during endurance at high temperature, and a production method therefor. The method for producing the exhaust gas purifying catalyst that has a porous carrier and a nob
An exhaust gas purifying catalyst with an excellent effect of suppressing deterioration due to aggregation of a noble metal catalyst during endurance at high temperature, and a production method therefor. The method for producing the exhaust gas purifying catalyst that has a porous carrier and a noble metal catalyst supported thereon includes: preparing the porous carrier that contains alumina-ceria-zirconia composite oxide particles and has physical property values, after subjected to baking at 900° C. for 5 hours, of a pore diameter of the particles in the range of 2 to 20 nm, a specific surface area of the particles in the range of 75 to 115 m2/g, a crystallite size of a ceria-zirconia composite oxide contained in the particles in the range of 4 to 6 nm, and a bulk density of the particles in the range of 0.5 to 0.9 cm3/g, and bringing a noble metal chemical solution having an aggregate of platinum or the like with a grain size adjusted to less than or equal to 1 nm with the use of a platinum nitric acid solution or the like, into contact with the porous carrier, so that the noble metal catalyst is supported on the porous carrier.
대표청구항▼
1. A method for producing an exhaust gas purifying catalyst including a porous carrier and a noble metal catalyst supported on the porous carrier, the porous carrier containing particles of an alumina-ceria-zirconia composite oxide including ceria-zirconica composite oxide, the method comprising: pr
1. A method for producing an exhaust gas purifying catalyst including a porous carrier and a noble metal catalyst supported on the porous carrier, the porous carrier containing particles of an alumina-ceria-zirconia composite oxide including ceria-zirconica composite oxide, the method comprising: preparing the porous carrier having physical property values, after subjected to baking at 900° C. for 5 hours, of a pore diameter of the particles in a range of 2 to 20 nm, a specific surface area of the particles in a range of 75 to 115 m2/g, a crystallite size of the ceria-zirconia composite oxide that is contained in the particles in a range of 4 to 6 nm, and a bulk density of the particles in a range of 0.5 to 0.9 cm3/g; andbringing a noble metal chemical solution into contact with the porous carrier, the noble metal chemical solution having an aggregate of one of platinum, palladium, or rhodium with a grain size adjusted to less than or equal to 1 nm with use of one of a platinum nitric acid solution, palladium nitric acid solution, or rhodium nitric acid solution, so that the noble metal catalyst is supported on the porous carrier. 2. The method according to claim 1, further comprising dissolving a cerium compound and a zirconium compound in distilled water to blend a mixture, and adding aluminum isopropoxide to the mixture to obtain the porous carrier. 3. An exhaust gas purifying catalyst comprising: a porous carrier; anda noble metal catalyst supported on the porous carrier,wherein:the porous carrier contains particles of an alumina-ceria-zirconia composite oxide including ceria-zirconia composite oxide,the porous carrier has physical property values, after subjected to baking at 900° C. for 5hours, of a pore diameter of the particles in a range of 2 to 20 nm, a specific surface area of the particles in a range of 75 to 115 m2/g, a crystallite size of a-the ceria-zirconia composite oxide that is contained in the particles in a range of 4 to 6 nm, and a bulk density of the particles in a range of 0.5 to 0.9 cm3/g, andin each of 256 ×256 regions obtained through division of a field of view of 87.04 ×87.04μm of an electron microscope with a magnification of 1000—, a correlation coefficient of concentrations between the noble metal catalyst and Al of the porous carrier is greater than or equal to 0.2.
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이 특허에 인용된 특허 (12)
Weigert, Erich Conlan; Mulla, Shadab Sharif; Ballinger, Todd Howard; Rieck, Jeffery Scott; Cox, Julian Peter; Chen, Hai-Ying, CO slip catalyst and method of using.
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