A technique for preparing perovskite-type oxides was developed. By this technique, ultra-fine particles of La0.9RE0.1MnO3 (RE: Y, Ce, Pr, Sm, Gd,or Dy) with high surface area and single perovskite structure were prepared, and the series of La0.9RE0.1MnO3 catalysts were studied experimentally. The so prepared ultra-fine particles exhibites high catalytic activity for CH4 total oxidation. The ultra-fine particles of La0.9RE0.1MnO3 (except for La0.9Pr0.1MnO3) prepared by this method are thermally much more stable than LaMnO3. Of the La0.9RE0.1MnO3 series, La0.9Y0.1MnO3 is most thermally stable, and La0.9Y0.1MnO3 or La0.9Gd0.1MnO3 (varies with calcination temperature) exhibits the highest catalytic activity for total oxidation of methane. The specific surface area of La0.9Y0.1MnO3 calcined at 1000 ℃ reaches 14.9 m2*g-1, while the specific surface area of LaMnO3 calcined at the same temperature is only 1.8 m2*g-1.
参考文献
| [1] | Viswanathan B .CO oxidation and NO reduction on perovskite oxides[J].Catalysis Review-Science and Engineering,1992,34:337. |
| [2] | Shu J;Kaliaguine S .Well-dispersed perovskite-type oxidation catalysts[J].Applied Catalysis B:Environmental,1998,16:L303. |
| [3] | Cui X L;Liu Y .New methods to prepare ultrafine particles of some perovskite- type oxides[J].Chemical Engineering Journal,2000,78:205. |
| [4] | Seiyama T .Total oxidation of hydrocarbon on perovskite oxides[J].Catalysis Review-Science and Engineering,1992,34:281. |
| [5] | Lee Y N;Fadli Z E et al.Synthesis and surface characterization of nanometric La1-xKxMnO3 particles[J].Catalysis Today,1999,52:45. |
| [6] | Sinquin G;Hindermann J P et al.perovskite as polyvalent catalysts for total destruction of C1 C2 and aromatic chlorinated volatile organic compounds[J].Catalysis Today,1999,54:107. |
| [7] | Choudhary VR.;Uphade BS.;Banerjee S. .Activation by hydrothermal treatment of low surface area ABO(3)-type perovskite oxide catalysts[J].Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications,2000(2):L183-L186. |
| [8] | Ferri D;Forni L .Methane combustion on some perovskite-like mixed oxides[J].Applied Catalysis B:Environmental,1998,16:119. |
| [9] | Cimino S;Lisi L et al.Methane combustion on perovskite-based catalysts[J].Catalysis Today,2000,59:19. |
| [10] | Arai H;Yamada T et al.Catalytic combustion of methane over various perovskite-type oxides[J].Applied Catalysis,1986,26:265. |
| [11] | Marchetti L;Forni L .Catalytic combustion of methane over perovskite[J].Applied Catalysis B:Environmental,1998,15:179. |
| [12] | Tabata K;Misono M .Elimination of pollutant gases-oxidation of CO reduction and decomposition of NO[J].Catalysis Today,1990,8:249. |
| [13] | Teraoka Y.;Kagawa S.;Jansson K.;Nygren M.;Nii H. .Influence of the simultaneous substitution of Cu and Ru in the perovskite-type (La,Sr)MO3 (M=Al, Mn, Fe, Co) on the catalytic activity for CO oxidation and CO-NO reactions[J].Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications,2000(Special Issue SI):35-41. |
| [14] | Ma J X;Fang M et al.The catalytic reduction of SO2 by CO over lanthanum oxysulphide[J].Applied Catalysis A:General,1997,150:253. |
| [15] | Ichimura K;Inoue Y et al.Hydrogenation and hydrogenolysis of hydrocarbons on perovskite oxides[J].Catalysis Review-Science and Engineering,1992,34:301. |
| [16] | Tascon J M D;Mendioroz S et al.Preparation characterization and catalytic properties of LaMeO3[J].Zeitschrift fuer Physikalische Chemie,Neue Folge,1981,124:109. |
| [17] | Kirchnerova J;Klvana D et al.Evaluation of some cobalt and nickel based perovskites prepared by freeze-drying as combustion catalysts[J].Catalysis Letters,1993,21:77. |
| [18] | Shao Z P;Xiong G X et al.New methods to prepare perovskite-type La0.8Sr0.2CoO3 catalyst at low temperature[J].Studies in surface science and catalysis,1998,118:431. |
| [19] | Hibino T;Suzuki K et al.Ultra-fine grinding of La0.8Sr0.2MnO3 oxide by vibration mill[J].Applied Catalysis A:General,1996,145:297. |
| [20] | Lee Y N;Sapina F et al.Corberan Catalytic combustion of ethane over high surface area Ln1-xKxMnO3 (Ln=La Nd) perovskites: the effect of potassium substitution[J].Studies in Surface Science and Catalysis,1997,110(10):747. |
| [21] | MIZUNO N .Supported perovskites[J].Catalysis Today,1990,8:221. |
| [22] | Saracco G;Geobaldo F et al.Methane combustion on Mg-doped LaMnO3 perovskite catalysts[J].Applied Catalysis B:Environmental,1999,20:277. |
| [23] | Fierro J L G .Structure and composition of perovskite surface in relation to adsorption and catalytic properties[J].Catalysis Today,1990,8:153. |
| [24] | Yamazoe N;Teraoka Y .Oxidation of perovskites-relrtionships to bulk structure and composotion (valency defect etc)[J].Catalysis Today,1990,8(08):175. |
| [25] | Petunchi J O;Lombardo E A .The effect of bulk and surface reduction upon the catalytic behavior of perovskite oxides[J].Catalysis Today,1990,8:201. |
| [26] | Mercera P D L;Ommen J G V et al.Zirconia as a support for catalysts-influence of additives on the thermal stability of the porous texture of monoclinic zirconia[J].Applied Catalysis,1991,71:363. |
| [27] | CHEN K S;Ma J et al.Catalytic carbon monoxide oxidation over strontium cerium and copper-substituted lanthanum manganates and cobaltates[J].Applied Catalysis A:General,1994,107:201. |
| [28] | Mercera P D L;Ommen J G V et al.Influence of ethanol washing of the hydrous precursor on the textural and structural properties of zirconia[J].Mat Sci,1992,72:4890. |
| [29] | Wang J Q;Wu W H;Feng D M.Intruduction to Electron Spectroscopy (China) (Guo Fang Chu Ban She[J].北京,1992 |
| [30] | WeastR C;Lide D R.CRC Handbook of Chemistry and Physics[M].CRC press, Inc Boca Ralon, Florida,1989-1990:B-215. |
| [31] | Gunasekaran N.;Carberry JJ.;Saddawi S. .EFFECT OF SURFACE AREA ON THE OXIDATION OF METHANE OVER SOLID OXIDE SOLUTION CATALYST LA0.8SR0.2MNO3[J].Journal of Catalysis,1996(1):107-111. |
| [32] | Ponce S. .Surface properties and catalytic performance in methane combustion of Sr-substituted lanthanum manganites[J].Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications,2000(3/4):193-205. |
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