- 稀土催化材料
- 吳曉東等
- 5486字
- 2020-06-24 17:22:51
參考文獻
[1]環境保護部.“環境保護部發布《2013年中國機動車污染防治年報》”[EB/OL].[2014-01-26]..//www.mep.gov.cn/gkml/hbb/qt/201401/t20140126_266973.htm.
[2]賀泓,翁端,資新運.柴油車尾氣排放污染控制技術綜述[J].環境科學,2007,28:1169-1177.
[3]郝鄭平,翁端,沈美慶,等.我國機動車排放污染控制與稀土催化劑的應用[J].稀土,2000,21:74-77.
[4]KA?PAR J,FORNASIERO P,HICKEY N.Automotive catalytic converters: current status and some perspectives[J].Catalysis Today,2003,77(4): 419-449.
[5]王亞軍,彭希,馮長根.汽車催化劑技術發展及研究概況[J].工業催化,2000,8(2):3-10.
[6]GRANGER P,PARVULESCU V I.Catalytic NOxabatement systems for mobile sources: from three-way to lean burn after-treatment technologies[J].Chemical Reviews,2011,111: 3155-3207.
[7]MONTE R D,KA?PAR J.On the role of oxygen storage in three-way catalysis[J].Topics in Catalysis,2001,28(1-4): 47-57.
[8]MILLER A L,GINTER D,SEABA J P,et al.A study to investigate the capability of adsorbents for reduction of cold-start emissions[J].Proceedings of the Institution of Mechanical Engineers Part D-Journal of Automobile Engineering,1998,212(6): 525-532.
[9]SHELEF M,MCCABE R W.Twenty-five years after introduction of automotive catalysts: what next? [J].Catalysis today,2000,62: 35-50.
[10]ROY S,HEGDE M,MADRAS G.Catalysis for NOxabatement[J].Applied Energy,2009,86(11): 2283-2297.
[11]MADIA G,ELSENER M,KOEBEL M,et al.Thermal stability of vanadia-tungsta-titania catalysts in the SCR process[J].Applied Catalysis B: Environmental,2002,39(2): 181-190.
[12]KANG M,PARK E D,KIM J M,et al.Manganese oxide catalysts for NOxreduction with NH3at low temperatures[J].Applied Catalysis A: General,2007,327(2): 261-269.
[13]ZHANG L,PIERCE J,LEUNG V L,et al.Characterization of ceria’s interaction with NOxand NH3[J].The Journal of Physical Chemistry C,2013,117(16): 8282-8289.
[14]FICKEL D W,D’ADDIO E,LAUTERBACH J A,et al.The ammonia selective catalytic reduction activity of copper-exchanged small-pore zeolites[J].Applied Catalysis B: Environmental,2011,102(3): 441-448.
[15]FINO D.Diesel emission control: catalytic filters for particulate removal[J].Science and Technology of Advanced Materials,2007,8: 93-100.
[16]STAKHEEV A,GOLOLOBOV A,BAEVA G,et al.Oxidation of soot with NO+O2over Pt catalyst: directevaluation of Pt catalyst efficiency in NO to NO2recycling[J].Mendeleev Communications,2010,20: 269-270.
[17]AZAMBRE B,COLLURA S,DARCY P,et al.Effects of a Pt/Ce0.68Zr0.32O2catalyst and NO2on the kinetics of diesel soot oxidationfrom thermogravimetric analysis[J].Fuel Process Technology,2011,92: 363-371.
[18]LPEZ-SUREZ FE,BUENO-LOPEZ A,ILLN-GMEZ MJ.Cu/Al2O3catalysts for soot oxidation: copper loading effect[J].Applied Catalysis B: Environmental,2008,84 : 651-658.
[19]REICHERT D,FINKE T,ATANASSOVA N,et al.Global kinetic modeling of the reaction of soot with O2and NOxon Fe2O3catalyst[J].Applied Catalysis B: Environmental,2008,84: 803-812.
[20]SETIABUDI A,CHEN J,MUL G,et al.CeO2catalyzed soot oxidation The role of active oxygen to accelerate the oxidation conversion [J].Applied Catalysis B: Environmental,2004,51: 9-19.
[21]BUENO-LPEZ A,KRISHNA K,MAKKEE M,et al.Enhanced soot oxidation by lattice oxygen via La-doped CeO2[J].Journal of Catalysis,2005,230: 237-248.
[22]KRISHNA K,BUENO-LPEZ A,MAKKEE M,et al.Potential rare earth modified CeO2catalysts for soot oxidation: I.Characterisation and catalytic activity with O2[J].Applied Catalysis B: Environmental,2007,75: 189-200.
[23]PIETA IS,GARCA-DIGUEZ M,HERRERA C,et al.In situ DRIFT-TRM study of simultaneous NOxand soot removal over Pt-Ba and Pt-K NSR catalysts[J].Journal of Catalysis,2010,270: 256-267.
[24]ZHANG Z,HAN D,WEI S,et al.Determination of active site densities and mechanisms for soot combustionwith O2on Fe-doped CeO2mixed oxides[J].Journal of Catalysis,2010,276: 16-23.
[25]WU X,LIN F,XU H,et al.Effects of adsorbed and gaseous NOxspecies on catalytic oxidation of dieselsoot with MnOx-CeO2mixed oxides[J].Applied Catalysis B: Environmental,2010,96: 101-109.
[26]AN H,MCGINN P J.Catalytic behavior of potassium containing compoundsfor diesel soot combustion[J].Applied Catalysis B: Environmental,2006,62: 46-56.
[27]GROSS M S,ULLA M A,QUERINI C A.Catalytic oxidation of diesel soot: New characterization and kinetic evidence related to the reaction mechanism on K/CeO2catalyst[J].Applied Catalysis A: General,2009,360: 81-88.
[28]PERALTA MA,ULLA MA,QUERINI CA.Diesel soot and NOxabatement: K/La2O3catalyst stability[J].Applied Catalysis B: Environmental,2010,101: 38-44.
[29]ZHAO B,WANG R,YANG X.Simultaneous catalytic removal of NOxand diesel soot particulates over La1-xCexNiO3perovskite oxide catalysts[J].Catalysis Communications,2009,10: 1029-1033.
[[30]LIU J,ZHAO Z,LAN J,et al.Catalytic combustion of soot over the highly active(La0.9K0.1CoO3)x/nmCeO2catalysts[J].The Journal of Physical Chemistry C,2009,113: 17114-17123.
[31]WANG K,QIAN L,ZHANG L,et al.Simultaneous removal of NOxand soot particulates over La0.7Ag0.3MnO3perovskite oxide catalysts[J].Catalysis Today,2010,158: 423-426.
[32]LIU J,ZHAO Z,XU C,et al.Simultaneous removal of NOxand diesel soot over nanometer Ln-Na-Cu-O perovskite-like complex oxide catalysts[J].Applied Catalysis B: Environmental,2008,78: 61-72.
[33]崔梅生,張娜.稀土催化材料及其應用[J].產業聚焦,2013,7:19-21.
[34]王斌,吳曉東,冉銳,等.稀土在機動車尾氣催化凈化中的應用與研究進展[J].中國科學:化學,2012,42:1315-1327.
[35]SHINJO H.Rare earth metals for automotive exhaust catalysts[J].Journal of Alloys and Compounds,2006,408-412: 1061-1064.
[36]CARLSSON P,SKOGLUNDH M.Low-temperature oxidation of carbon monoxide and methane over alumina and ceria supported platinumcatalysts[J].Applied Catalysis B: Environmental,2011,101: 669-675.
[37]ZHANG L,WENG D,WANG B,et al.Effects of sulfation on the activity of Ce0.67Zr0.33O2supported Pt catalyst for propane oxidation[J].Catalysis Communications,2010,11: 1229-1232.
[38]SHARMA S,HEGDE MS,DAS RN,et al.Hydrocarbon oxidation and three-way catalytic activity on a single step directly coated cordieritemonolith: high catalytic activity of Ce0.98Pd0.02O2-δ[J].Applied Catalysis A: General,2008,337: 130-137.
[39]WANG G,MENG M,ZHA Y Q,et al.High-temperature close coupled catalysts Pd/Ce-Zr-M/Al2O3(M = Y,Ca or Ba)used for the total oxidation of propane[J].Fuel,2010,89: 2244-2251.
[40]WANG Q Y,LI G F,ZHAO B,et al.The effect of La doping on the structure of Ce0.2Zr0.8O2and the catalytic performance of its supported Pd-only three-way catalyst[J].Applied Catalysis B: Environmental,2010,101: 150-159.
[41]YAO Y L,FANG R M,SHI Z H,et al.The effect of La2O3on Pd close-coupled catalysts[J].Chinese Journal ofCatalysis,2011,32: 589-594.
[42]RAO G R,KA?PAR J,MERIANI S,et al.NO decomposition over partially reduced metallized CeO2-ZrO2solid solutions[J].Catalysis letters,1994,24: 107-112.
[43]RAO G R,FORNASIERO P,MONTE R D,et al.Reduction of NO over partially reduced metal-loaded CeO2-ZrO2solid solutions[J].Journal of Catalysis,1996,162: 1-9.
[44]DJGA-MARIADASSOU G,FAJARDIE F,TEMPèRE J F,et al.A general model for both three-way and deNOxcatalysis: x dissociative or associative nitric oxide adsorption,and its assisted decomposition in the presence of a reductant: Part I.Nitric oxide decomposition assisted by CO over reduced or oxidized rhodium species supported on ceria[J].Journal of Molecular Catalysis A: Chemical,2000,161: 179-189.
[45]KAWABATA H,KODA Y,SUMIDA H,et al.Self-regeneration of three-way catalyst rhodium supported on La-containing ZrO2in an oxidative atmosphere[J].Catalysis Science and Technology,2014,4: 697-707.
[46]ZHANG H Y,ZHU A M,WANG X K,et al.Catalytic performance of Ag-Co/CeO2catalyst in NO-CO and NO-CO-O2systems[J].Catal systems[J].Catalysis Communications,2007,8: 612-618.
[47]蔣曉原,丁光輝,劉琪,等.CuO在CeO2和γ-Al2O3上的表面性質及對NO+CO反應性能的研究[J].浙江大學學報:理學版,2003,30:289-295.
[48]張可新.CuO/Ce0.9Zr0.1O2-Al2O3催化劑的合成及其催化CO還原NO的研究[D].黑龍江大學碩士研究生學位論文,2012.
[49]盧冠中,汪仁.氧化鈰在非貴金屬氧化物催化劑中的作用:NO+CO反應[J].中國稀土學報,1991,9:329-333.
[50]程曉慶.NiO/CeO2催化劑上NO-CO反應機理研究[D].大連理工大學碩士學位論文,2009.
[51]VISVANATHAN B.CO oxidation and NO reduction on perovskite oxides[J].Catalysis Reviews - Science and Engineering,1992,34: 337-354.
[52]TABATA K,MISONO M.Elimination of pollution gases-oxidation of CO,reduction and decomposition of NO[J].Catalysis Today,1990,8: 249-256.
[53]SORENSON S C,WRONKIEWICZ J A,SIS L B,et al.Properties of LaCoO3as a catalyst in engine exhaust gases[J].Bulletin of the American Ceramics Society,1974,53: 446-450.
[54]BELESSI V C,BAKAS T V,COSTAC N.Synergistic effects of crystal phases and mixed valences in La-Sr-Ce-Fe-O mixed oxidic/perovskitic solids on their catalytic activity for the NO+CO reaction[J].Applied Catalysis B: Environmental,2000,28: 13-28.
[55]WU Y,ZHAO Z,LIU Y,et al.The role of redox property of La2-x(Sr,Th)xCuO4+λplaying in the reaction of NO decomposition and NO reduction by CO[J].Journal of Molecular Catalysis A: Chemical,2000,155: 89-100.
[56]劉鈺,楊向光,趙震,等.層狀La-Ba-Cu復合氧化物在CO還原NO反應中活性的研究[J].科學通報,1997,42:2172-2175.
[57]劉鈺,楊向光,吳越.層狀復合氧化物La4BaCu5-xMxO13+λ的制備、表征及對CO還原NO的活性[J].催化學報,2000,21:59-63.
[58]KASPAR J,FOMASIERO P,GRAZIANI M.Use of CeO2-based oxides in the three-way catalysis[J],Catalysis Today,1999,50: 285-298.
[59]WANG X,LU G,GUO Y,et al.Structure,thermal-stability and reducibilityof Si-doped Ce-Zr-O solid solution[J].Catalysis Today,2007,126: 412-419.
[60]HANEDA M,HOUSHITO O,SATO T,et al.Improvedactivity of Rh/CeO2-ZrO2three-way catalyst by high-temperature ageing[J].Catalysis Communications,2010,11:317-321.
[61]WANG Q Y,LI G F,ZHAO B,et al.The effect of Nd on the properties of ceria-zirconia solid solution and the catalytic performance of itssupported Pd-only three-way catalyst for gasoline engine exhaust reduction[J].Journal ofHazardous Materials,2011,189: 150-157.
[62]WANG Q Y,LI G F,ZHAO B,et al.Investigation on properties of a novel ceria-zirconia-praseodymia solid solution and its application in Pd-only three-way catalyst for gasoline engine emission control[J].Fuel,2011,90: 3047-3055.
[63]WANG Q Y,LI G F,ZHAO B,et al.The effect of rare earth modification on ceria-zirconia solid solution and its application in Pd-onlythree-way catalyst[J].Journal of Molecular Catalysis A: Chemical,2011,339: 52-60.
[64]何洪,戴宏興,李佩恒,等.Ce0.6Zr0.35Y0.05O2和Pr0.6Zr0.35Y0.05O2固溶體的氧儲存能力及氧化-還原性能的研究[J].中國稀土學報,2002,20:43-46.
[65]IKRYANNIKOVA L N,AKSENOV A A,MAKARYAN G L,et al.The red-ox treatments influence on the structure and properties of M2O3-CeO2-ZrO2(M = Y,La)solidsolutions[J].Applied Catalysis A: General,2001,210: 225-235.
[66]LI G F,WANG Q Y,ZHAO B,et al.The promotional effect of transition metals on the catalytic behavior of model Pd/Ce0.67Zr0.33O2three-way catalyst[J].Catalysis Today,2010,158: 385-392.
[67]YUE B H,ZHOU R X,WANG Y J,et al.Influence of transition metals(Cr,Mn,Fe,Co and Ni)onthe methane combustion over Pd/Ce-Zr/Al2O3catalyst[J].Applied Surface Science,2006,252: 5820-5828.
[68]GUO Y,LU G Z,ZHANG Z G,et al.Preparation of CexZr1-xO2(x= 0.75,0.62)solid solution and its application in Pd-only three-way catalysts[J].Catalysis Today,2007,126: 296-302.
[69]FAN J,WENG D,WU X D,et al.Modification of CeO2-ZrO2mixed oxides by coprecipitated/impregnated Sr: Effect on themicrostructure and oxygen storage capacity[J].Journal of Catalysis,2008,258: 177-186.
[70]MIURA M,HIRATA H,ISHIBASHI K.Study of large OSC materials(Ln2O2SO4)on the basis of sulfur redox reaction[J].SAE Technical Paper,2009:5.
[71]MA Z R,WENG D,WU X D,et al.Effects of WOxmodification on the activity,adsorption and redox properties of CeO2catalyst for NOxreduction with ammonia[J].Journal of Environmental Sciences,2012,24: 1305-1316.
[72]CHEN L,WENG D,SI Z C,et al.Synergistic effect between ceria and tungsten oxide on WO3-CeO2-TiO2catalysts for NH3-SCR reaction[J].Progress in Natural Science: Materials International,2012,22: 265-272.
[73]MA Z R,WENG D,WU X D,et al.A novel Nb-Ce/WOx-TiO2catalyst with high NH3-SCR activity and stability[J].Catalysis Communications,2012,27: 97-100.
[74]SI Z C,WENG D,WU X D,et al.NH3-SCRactivity,hydrothermalstability,sulfurresistanceandre-generationofCe0.75Zr0.25O2-
catalyst[J].Catalysis Communications,2012,17: 146-149.
[75]SI Z C,WENG D,WU X D,et al.Lattice oxygen mobility and acidity improvements of NiO-CeO2-ZrO2catalyst by sulfation for NOxreduction by ammonia[J].Catalysis Today,2013,201: 122-130.
[76]PENG Y,LIU Z M,NIU X W,et al.Manganese doped CeO2-WO3catalysts for the selective catalyticreduction of NOxwith NH3: An experimental and theoretical study[J].Catalysis Communications,2012,19: 127-131.
[77]GAO X,JIANG Y,FU Y C,et al.Preparation and characterization of CeO2/TiO2catalysts for selective catalytic reduction of NO with NH3[J].Catalysis Communications,2010,11: 465-469.
[78]SHAN W P,LIU F D,HE H,et al.An environmentally-benign CeO2-TiO2catalyst for the selective catalytic reduction of NOxwith NH3in simulated diesel exhaust[J].Catalysis Today,2012,184: 160-165.
[79]XU H D,ZHANG Q L,QIU C T,et al.Tungsten modified MnOx-CeO2/ZrO2monolith catalysts for selective catalytic reduction of NOxwith ammonia[[J].Chemical Engineering Science,2012,76: 120-128.
[80]ZHANG QL,QIU CT,XU HD,et al.Low-temperature selective catalytic reduction of NO with NH3over monolith catalyst of MnOx/CeO2-ZrO2-Al2O3[J].Catalysis Today,2011,175: 171-173.
[81]CASANOVA M,SCHERMANZ K,LLORCA J,et al.Improved high temperature stability of NH3-SCR catalysts based on rare earth vanadates supported on TiO2-WO3-SiO2[J].Catalysis Today,2012,184: 227-236.
[82]LIN F,WU XD,WENG D.Effect of barium loading on CuOx-CeO2catalysts: NOxstorage capacity,NO oxidation ability and soot oxidation activity[J].Catalysis Today,2011,175: 124-132.
[83]WENG D,LI J,WU XD,et al.Promotional effect of potassium on soot oxidation activity and SO2-poisoning resistance of Cu/CeO2catalyst[J].Catalysis Communications,2008,9: 1898-1901.
[84]WU XD,LIN F,XU HB,et al.Effects of adsorbed and gaseous NOxspecies on catalytic oxidation of diesel soot with MnOx-CeO2mixed oxides[J].Applied Catalysis B: Environmental,2010,96: 101-109.
[85]WU XD,ZHOU Z,WENG D,et al.Role of stable nitrates stored on BaCoCe in soot catalytic oxidation[J].Catalysis Communications,2010,11: 749-752.
[86]WU XD,YU H N,WENG D,et al.Synergistic effect between MnO and CeO2in the physical mixture: Electronic interaction and NO oxidation activity[J].Journal of Rare Earths,2013,31: 1141-1147.
[87]WU X D,LIU S,LIN F,et al.Nitrate storage behavior of Ba/MnOx-CeO2catalyst and its activity for soot oxidation with heat transfer limitations[J].Journal of Hazardous Materials,2010,181: 722-728.
[88]WU XD,LIN F,WANG L,et al.Preparation methods and thermal stability of Ba-Mn-Ce oxide catalyst for NOx-assisted soot oxidation[J].Journal of Environmental Science,2011,23: 205-210.
[89]WU X D,LIU S,LIN F,et al.Textural-structural properties and soot oxidation activity of MnOx-CeO2mixed oxides[J].Catalysis Communications,2011,12: 345-348.
[90]WU X D,LIU S,WENG D,et al.MnOx-CeO2-Al2O3mixed oxides for soot oxidation: Activity and thermal stability[J].Journal of Hazardous Materials,2011,187: 283-290.
[91]WU X D,LEE H R,LIU S,et al.Regeneration of sulfated MnOx-CeO2-Al2O3soot oxidation catalyst by reduction with hydrogen[J].Industrial & Engineering Chemistry Research,2013,52: 716-721.
[92]LIU S,WU X D,WENG D,et al.Combined promoting effects of platinum and MnOx-CeO2supported on alumina on NOx-assisted soot oxidation: Thermal stability and sulfur resistance[J].Chemical Engineering Journal,2013,203: 25-35.
[93]WEI YC,LIU J,ZHAO Z,et al.Highly active catalysts of gold nanoparticles supported on three-dimensionally ordered macroporous LaFeO3for soot oxidation[J].Angewandte Chemie International Edition,2011,123: 2374-2377.
[94]WEI YC,LIU J,ZHAO Z,et al.The catalysts of three-dimensionally ordered macroporous Ce1-xZrxO2-supported gold nanoparticles for soot combustion: The metal-support interaction[J].Journal of Catalysis,2012,287: 13-29.
[95]PENG XS,LIN H,SHANGGUAN WF,et al.A highly efficient and porous catalyst for simultaneous removal of NOxand diesel soot[J].Catalysis Communications,2007,8: 157-161.
[96]ZHANG ZL,HAN D,WEI SJ,et al.Determination of active site densities and mechanisms for soot combustion with O2on Fe-dopedCeO2mixed oxides[J].Journal of Catalysis,2010,276: 16-23.
[97]KIM CH,QI GS,DAHLBERG K,et al.Strontium-doped perovskites rival platinum catalysts for treating NOxin simulated diesel exhaust[J].Science,2010,26: 1624-1627.
[98]WANG W C,MCCOOL G,KAPUR N,et al.Mixed-phase oxide catalyst based on Mn-mullite(Sm,Gd)Mn2O5for NO oxidation in diesel exhaust[J].Science,2012,337: 832-835.
[99]AZAMBRE B,COLLURA S,DARCY P,et al.Effects of a Pt/Ce0.68Zr0.32O2catalyst and NO2on the kinetics of diesel soot oxidation from thermogravimetric analyses[J].Fuel Processing Technology,2011,92: 363-371.
[100]LIU S,WU X D,LIN Y,et al.Active oxygen-assisted NO-NO2recycling and decomposition of surface oxygenated species in diesel soot when employing a Pt/Ce0.6Zr0.4O2[J].Chinese Journal of Catalysis,2014,35: 407-415.
[101]SUZUKI A,NAKAMURA K,SATO R,et al.Multi-scale theoretical study of support effect on sintering dynamics of Pt[J].Surface Science,2009,603: 3049-3056.
[102]NAGAI Y,HIRABAYASHI T,DOHMAE K,et al.Sintering inhibition mechanism of platinum supported on ceria-based oxide and Pt-oxide-support interaction[J].Journal of Catalysis,2006,242: 103-109.
[103]YOSHIDA H,YAZAWA Y,HATTORI T.Effects of support and additive on oxidation state and activity of Pt catalyst in propane combustion[J].Catalysis Today,2003,87: 19-28.
[104]BERNAL S,BLANCO G,CALVINO J,et al.HRTEM and TPO Study of the behavior under oxidizing conditions of some Rh/CeO2catalysts[J].Studies in Surface Science and Catalysis,1994,82: 507-514.
[105]ALVAREZ-GALVAN M C,NAVARRO R M,ROSA F,et al.Hydrogen production for fuel cell by oxidative reforming of diesel surrogate: Influence of ceria and/or lanthana over the activity of Pt/Al2O3catalysts[J].Fuel,2008,87: 2502-2511.
[106]WANG G,YOU R,MENG M.An optimized highly active and thermo-stable oxidation catalyst Pd/Ce-Zr-Y/Al2O3calcined at super high temperature and used for C3H8total oxidation[J].Fuel,2013,103: 799-804.
[107]SHYU J Z,OTTO K,WATKINS W L H,et al.Characterization of Pd/γ-alumina catalysts containing ceria[J].Journal of Catalysis,1988,114: 23-33.
[108]KRAUSE K R,SCHABES-RETCHKIMAN P,SCHMIDT L D.Microstructure of Rh-Ce particles on silica: Interactions between Ce and SiO2[J].Journal of Catalysis,1992,134: 204-219.
[109]AOKI Y,YOSHIDA T,TANABE T,et al,Development of double-layered three-way catalysts[J],SAE Technical Paper,2009: 459-463.
[110]ARAI H,MACHIDA M.Thermal stabilization of catalyst supports and their application to high-temperature catalytic combustion[J].Applied Catalysis A: General,1996,138: 161-176.
[111]VLAICG,FORNASIERO P.Morphology of rhodium particles in ex-chloride Rh/Ce0.5Zr0.5O2catalyst[J].Journal of Catalysis,2000,190: 182-190.
[112]WU X,YANG B,WENG D.Effect of Ce-Zr mixed oxides on the thermal stability of transition aluminas at elevated temperature[J].Journal of Alloys and Compounds,2004,376: 241-245.
[113]周文龍.共沉淀法制備鈰鋯氧化鋁復合氧化物的性能研究[D].天津大學碩士學位論文,2007.
[114]OZAWA M,KIMURA M,ISOGAI A.The application of Ce-Zr oxide solid-solution to oxygen storage promoters in automotive catalysts[J].Journal of Alloys and Compounds,1993,193: 73-75.
[115]QI G,YANG RT.Performance and kinetics study for low-temperature SCR of NO with NH3over MnOx-CeO2catalyst[J].Journal of Catalysis,2003,217: 434-441.
[116]WU ZB,JIN RB,WANG HQ,et al.Effect of ceria doping on SO2resistance of Mn/TiO2for selective catalytic reduction of NO with NH3at low temperature[J].Catalysis Communications,2009,10: 935-939.
[117]KWAK J H,KIM DH,SZANYI J,et al.Excellent sulfur resistance of Pt/BaO/CeO2lean NOxtrap catalysts[J].Applied Catalysis B: Environmental,2008,84: 545-551.
[118]ROHART E,LARCHER O,OTTAVIANI E,et al.High thermostable hybrid zirconia materials for low loading precious metal catalyst technology[J].Sae Technical Papers 2005.
[119]PAPAVASILIOU A,TSETSEKOU A,MATSOUKA V,et al.Development of a Ce-Zr-La modified Pt/γ-Al2O3TWC's washcoat: Effect of synthesis procedure on catalytic behaviour and thermal durability[J].Applied Catalysis B: Environmental,2009,90: 162-174.
[120]LETICHEVSKY S,TELLEZ C A,DE AVILLEZ R R.Obtaining CeO2-ZrO2mixed oxides by coprecipitation: role of preparation conditions[J].Applied Catalysis B: Environmental,2005,58: 203-210.
[121]吳介達,牛明勤,陸世鑫,等.納米錦鋯復合氧化物的制備及表征[J].同濟大學學報,2003,31:1127-1130.
[122]ZHANG L,ZHENG L M,GUO J X,et al.Structure evolution process of Ce0.65Zr0.25Y0.1O1.95prepared by oxidation-coprecipitation method[J].Acta Physico-Chimica Sinica,2008,24: 1342-1346.
[123]張俊卿,郭軍平,郝茂榮.納米鈰鋯氧化物粉末的制備和表征[J].包頭鋼鐵學院學報,2006,25:55-58.
[124]TERRIBLE D,TROVARELLI A,LLORCA J,et al.The preparation of high surface area CeO2-ZrO2mixed oxides by a surfactant-assisted approach[J].Catalysis Today,1998,43: 79-88.
[125]劉偉,李佩珩,戴洪興,等.不同類型表面活性劑對鈰鋯固溶體性能的影響[J].中國稀土學報,2005,23:17-17.
[126]翟彥青,劉源,王麗.超臨界干燥法制備鈰鋯氧化物固溶體[J].內蒙古工業大學學報:自然科學版,2009,001.
[127]WANG Q Y,LI G F,ZHAO B,et al.Synthesis of La modified ceria-zirconia solidsolution by advanced supercritical ethanol drying technology and its application in Pd-only three-way catalyst[J].Applied Catalysis B: Environmental,2010,100: 516-528.
[128]阮詠恩.(CeZrLaPr)O稀土汽車尾氣催化劑的超臨界法制備研究[J].廣西輕工業,2007,23:22-24.
[129]周新木,徐招弟,李永繡,等.鈰鋯固溶體的水熱晶化及拋光性能[J].南昌大學學報:理科版,2006,30:162-165.
[130]古映瑩,王海利,王曼娟,等.以PEG為模板劑水熱合成高比表面介孔Ce0.5Zr0.5O2固溶體[J].中國稀土學報,2009:297-301.
[131]WENG X L,PERSTON B,WANG X Z,et al.Synthesis and characterization of doped nano-sized ceria-zirconia solid solutions[J].Applied Catalysis B: Environmental,2009,90: 405-415.
[132]ROHART E,LARCHER O,HDOUIN C,et al.Innovative materials with high stability,high OSC,and low light-offfor low PGM technology[R].SAE Technical Paper,2004.
[133] ROSSIGNOL S,GERARD F,DUPREZ D.Effect of the preparation method on the properties of zirconia-ceria materials[J].Journal ofMaterials Chemistry,1999,9: 1615-1620.
[134]THAMMACHART M,MEEYOO V,RISKSOMBOON T,et al.Catalytic activity of CeO2-ZrO2mixedoxide catalysts prepared via sol-gel technique: CO oxidation[J].Catalysis Today,2001,68: 53-61.
[135]楊志柏,林培琰.改進的溶膠-凝膠法制備CeO2-ZrO2固溶體及其物性表征[J].功能材料,2000,31:657-659.
[136]NUNANJ G.Methods of making highly dispersed substantially uniform cerium and zirconium mixed-metal-oxide composite supports for exhaust conversion catalysts:US,6040265[P].2000-03-21.
[137]TRUSOVA E A,KHRUSHCHEVA A A,VOKHMINTCEV K V.Sol-gel synthesis and phase composition ofultrafine ceria-doped zirconia powders for functional ceramics[J].Journal of the European CeramicSociety,2012,32: 1977-1981.
[138]馮長根,張江山,王亞軍.高分子凝膠法合成納米鈰鋯氧化物固溶體及其熱穩定性研究[J].北京理工大學學報,2005,25:82-86.
[139]ROSSIGNOL S,MADIER Y,DUPREZ D.Preparation of zirconiaceria materialsby soft chemistry[J].Catalysis Today,1999,50: 261-270.
[140]MARTINEZ-ARIAS A,FERNNDEZ-GARCA M,BALLESTEROS V,et al.Characterization of high surface area Zr-Ce(11)mixed oxide prepared by a microemulsion method[J].Langmuir,1999,15: 4796-4802.
[141]MARTINEZ-ARIAS A,FERNNDEZ-GARCA M,IGLESIAS-JUEZ A,et al.Structural characteristics and redox behavior of CeO2-ZrO2/Al2O3supports[J].Journal of Catalysis,2000,194: 385-392.
[142]WU X D,FAN J,RAN R,et al.Effect of preparation method on the surface and redox properties of Ce0.67Zr0.33O2mixed oxides[J].Journal of Alloys and Compounds,2005,395: 135-140.
[143]JIANG P P,LU G Z,LI Y Y,et al.Preparation of La2O3-doped CeO2-ZrO2solid solution with high thermal stability by water-in-oil microemulsion[J].Chemistry Letters,2004,33: 1064-1065.
[144]YU J C,ZHANG L,LIN J.Direct sonochemical preparation of high-surface—area nanoporous ceria and ceria-zirconia solid solutions[J].Journal of Colloid and Interface Science,2003,260: 240-243.
[145]鐘依均,羅孟飛.陶瓷蜂窩載體表面鈰鋯固溶體圖層的表征[J].浙江師范大學學報:自然科學版,2003,26:158-160.
[146]QI G,YANG R T,CHANG R.MnO2-CeO2oxides prepared by co-precipitation for selective catalytic reduction of NO with NH3at low temperatures[J].Applied Catalysis B: Environmental,2004,51: 93-106.
[147]LIOTTA L F,DI CARLOB G,PANTALEOB G,et al.Co3O4/CeO2and Co3O4/CeO2-ZrO2composite catalysts for methane combustion: Correlation between morphology reduction properties and catalytic activity[J].Catalysis Communications,2005,6: 329-336.
[148]徐海波,吳曉東,翁端.過渡金屬-鈰基復合氧化物的制備與碳煙燃燒催化性能[J].中國稀土學報,2010,28:10-15.
[149]SHENG YQ,ZHOU Y,LU H F.Soot combustion performance and H2-TPR study on ceria-based mixed oxides[J].Chinese Journal of Catalysis,2013,34: 567-577.
[150]ZHANG Q,QIU C,XU H,et al.Novel promoting effects of tungsten on the selective catalytic of NO by NH3over MnOx-CeO2monolith catalyst[J].Catalysis Communications,2011,16: 20-24.
[151]HARRISON PG,BALL I K,DANIELL W,et al.Cobalt catalysts for the oxidation of diesel soot particulate[J].Chemical Engineering Journal.2003,95: 47-55.
[152]宋崇林,沈美慶,王軍,等.稀土鈣鈦礦型催化劑LaBO3對NOx催化性能及反應機理的研究,1-催化劑的合成工藝及催化性能[J].燃燒科學與技術,1999,5:91-95.
[153]SHU J,KALIAGUINE S.Well-dispersed perovskite-type oxidation catalysts[J].Applied Catalysis B: Environmental,1998,16: L303-L308.
[154]KALIAGUINE S,VAN NESTE A,SZABO V,et al.Perovskite-type oxides synthesized by reactive grinding Part Ⅰ: Preparation and characterization[J].Applied Catalysis A: General,2001,209: 345-358.
[155]SZABO V,BASSIR M,VAN NESTE A,et al.Perovskite-type oxides synthesized by reactive grinding Part Ⅱ: Catalytic properties of LaCo1-xFexO3in VOC oxidation[J].Applied Catalysis B: Environmental,2002,37: 175-180.
[156]梁珍成,秦永寧,喬冠東,等.La-Ce-Mn系鈣鈦礦型催化性能研究[J].化學物理學報,1997,10:60-66.
[157]劉源.鈣鈦礦型LaCoO3和LaMnO3超細粒子的制備[J].內蒙古工業大學學報,2000,19:192-196.
[158]徐魯華,翁端,吳曉東,等.La0.7Sr0.3Mn0.7Zn0.3O3鈣鈦礦的制備及稀燃條件下氮氧化物的催化還原性能[J].中國稀土學報,2002,20:378-381.
[159]XIA C T,SHI E W,ZHONG W Z,et al.Hydrothermal synthesis of BaTiO3nano/microcrystals[J].Journal of Crystal Growth,1996,166: 961-966.
[160]WANG H,LIU J B,ZHU M K,et al.Hydrothermal synthesis of strontium bismuth tantalite powder[J].Materials Letters,2003,57: 2371-2374.
[161]CHEN D,XU R.Hydrothermal synthesis and characterization of La2M2O7(M=Ti,Zr)powders[J].Materials Research Bulletin,1998,33: 409-417.
[162]HUANG K Q,GOODENOUGH J B.Wet chemical synthesis of Sr and Mg-doped LaGaO3,a perovskite-type oxide-ion conductor[J].Journal of Solid State Chemistry,1998,136: 274-283.
[163]OUTZOURHIT A,ELLDRISSI RAGHNI M A,HAFID M L.Characterization of hydrothermally prepared BaTi1-xZrxO3[J].Journal of Alloys and Compounds,2002,340: 214-219.
[164]李寶華,鄭文君,龐文琴.A離子缺陷型鈣鈦礦La0.66TiO2.993的水熱合成和表征[J].無機材料學報,1997,12:809-813.