稀土元素具有未充满电子的4f轨道和镧系收缩等特征,当用作催化剂的活性组分或载体时常常表现出独特的催化性能。稀土催化材料的研究和发展为La和Ce等高丰度轻稀土元素的高质、高效利用提供了有效的途径。目前稀土催化材料在石油化工、化石燃料的催化燃烧、机动车尾气净化、工业废气治理和固体氧化物燃料电池等领域发挥着重要的作用。本文综述了稀土催化材料的应用以及理论研究进展,重点讨论了稀土元素对所涉及催化剂的结构、活性和稳定性等的影响。
Rare earth elements possess 4f orbitals without full electron occupancy and lanthanide contraction. This characteristic results in their unique catalytic performance when they are used as active com-ponents or as catalyst supports. Research into and the development of rare earth catalytic materials will significantly promote the high-efficiency utilization of abundant rare earth elements, such as lanthanum and cerium. Currently, rare earth catalytic materials play an important role in such areas as the petroleum chemical industry, the catalytic combustion of fossil fuels, automotive emissions control, the purification of industrial waste air, and solid solution fuel cells. In this paper, we review the application of and recent research progress that has been made on rare earth catalytic materials, including relative theoretical research. The effects of rare earth elements on the structure, activity, and stability of the catalysts of interest are described.
参考文献
| [1] | Carvajal R;Chu P J;Lunsford J H .[J].Journal of Catalysis,1990,125:123. |
| [2] | de la Puente G;Souza-Aguiar E F;Zotin F M Z;Camorim V L D Sedran U .[J].Applied Catalysis A:General,2000,197:41. |
| [3] | Seherzer J;Ritter R E .[J].Industrial and Engineering Chemistry:Product Research and Development,1978,17:219. |
| [4] | Magee J S;Comfier W E;Woltermann G M .[J].Oil and Gas Journal,1985,83(21):59. |
| [5] | 于善青,田辉平,朱玉霞,代振宇,龙军.稀土离子调变Y型分子筛结构稳定性和酸性的机制[J].物理化学学报,2011(11):2528-2534. |
| [6] | Biswas J;Maxwell I E .[J].Applied Catalysis,1990,63:l97. |
| [7] | Scherzer J .[J].CATALYSIS REVIEWS-SCIENCE AND ENGINEERING,1989,31:2l5. |
| [8] | 李斌,李士杰,李能,刘从华,高雄厚,庞新梅.FCC催化剂中REHY分子筛的结构与酸性[J].催化学报,2005(04):301-306. |
| [9] | 代振宇,邵潜,李阳,贺振富,周涵.FCC汽油模型化合物在不同分子筛中扩散行为的分子模拟[J].石油学报(石油加工),2007(01):41-45. |
| [10] | Rahimi N;Karimzadeh R .[J].Applied Catalysis A:General,2011,398:1. |
| [11] | 张培青,王祥生,郭洪臣.组合改性对纳米HZSM-5催化剂降低汽油烯烃性能的影响[J].催化学报,2005(10):911-916. |
| [12] | Li Y F;Liu H;Zhu J Q;He P Wang P Tian H P .[J].Microporous Meso-porous Mater,2011,142:621. |
| [13] | 邵潜,李阳,田辉平,贺振富,龙军.ZRP沸石对FCC汽油催化裂解产丙烯的影响[J].石油学报(石油加工),2007(02):8-11. |
| [14] | Shao Q;Wang P;Tian H P;Yao R Y Sun Y Long J .[J].Catalysis Today,2009,147:S347. |
| [15] | Ouyang J;Kong F X;Su G D;Hu Y C Song Q L .[J].Catalysis Letters,2009,132:64. |
| [16] | Wang H J;Yu D H;Sun P;Yan J Wang Y Huang H .[J].CATALYSIS COMMUNICATIONS,2008,9:1799. |
| [17] | Machado F J;López C M;Campos Y;Bol Yunes S .[J].Applied Catalysis A:General,2002,226(var A):241. |
| [18] | Lopes J M;Ribeiro R F .[J].Journal of Molecular Catalysis A:Chemical,2002,179:185. |
| [19] | Sheemol V N;Tyagi B;Jasra R V .[J].Journal of Molecular Catalysis A:Chemical,2004,215:201. |
| [20] | Zhao R;Wang YQ;Guo YL;Guo Y;Liu XH;Zhang ZG;Wang YS;Zhan WC;Lu GZ .A novel Ce/AlPO-5 catalyst for solvent-free liquid phase oxidation of cyclohexane by oxygen[J].Green chemistry,2006(5):459-466. |
| [21] | Li J;Li X;Shi Y;Mao D S Lu G Z .[J].Catalysis Letters,2010,137:180. |
| [22] | Zwinkels M F M;J?ras S G;Menon P G;Griffin T A .[J].CATALYSIS REVIEWS-SCIENCE AND ENGINEERING,1993,35:319. |
| [23] | Colussi S;Gayen A;Llorca J;de Leitenburg C Dolcetti G Tovarelli A .[J].Industrial and Engineering Chemistry Research,2012,51:7510. |
| [24] | Choudhary T V;Banerjee S;Choudhary V R .[J].Applied Catalysis A:General,2002,234:1. |
| [25] | Forzatti P .[J].Catalysis Today,2003,83:3. |
| [26] | Cargnello M;Jaén J J D;Garrido J C H;Bakhmutsky K Montini T Gámez J J C Gorte R J Fornasiero P .[J].SCIENCE,2012,337:713. |
| [27] | Widjaja H;Sekizawa K;Eguchi K;Arai H .[J].Catalysis Today,1997,35:197. |
| [28] | Sekizawa K;Widjaja H;Maeda S;Ozawa Y Eguchi K .[J].Catalysis Today,2000,59:69. |
| [29] | Colussi S;Gayen A;Farnesi C M;Boaro M Llorca J Fabris S Trovarelli A .[J].ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2009,48:8481. |
| [30] | Schwartz W R;Pfefferle L D .[J].J Phys Chem C,2012,116:8571. |
| [31] | Ciuparu D.;Lyubovsky MR.;Altman E.;Pfefferle LD.;Datye A. .Catalytic combustion of methane over palladium-based catalysts [Review][J].Catalysis Reviews. Science and Engineering,2002(4):593-649. |
| [32] | Groppi G;Cristiani C;Lietti L;Ramella C Valentini M Forzatti P .[J].Catalysis Today,1999,50:399. |
| [33] | Bernal S;Calvino J J;Gatica J M;Lopez Cartez C, Pintado J M.[A].London:Imperial College,2002:85. |
| [34] | Hoflund G B;Li Z H;Epling W S;G?bel T Schneider P Hahn H .[J].Reaction Kinetics & Catalysis Letters,2000,70:97. |
| [35] | Palmqvist AEC.;Jaras SG.;Muhammed M.;Johansson EM. .Total oxidation of methane over doped nanophase cerium oxides[J].Catalysis Letters,1998(1):69-75. |
| [36] | Kundakovic L.;Flytzani-Stephanopoulos M. .Cu- and Ag-modified cerium oxide catalysts for methane oxidation[J].Journal of Catalysis,1998(1):203-221. |
| [37] | Deng Y Q;Nevell T G .[J].Catalysis Today,1999,47:279. |
| [38] | Machida M;Eguchi K;Arai H .[J].Journal of Catalysis,1989,120:377. |
| [39] | Groppi G.;Forzatti P.;Cristiani C. .BAFEXAL(12-X)O-19 SYSTEM FOR HIGH-TEMPERATURE CATALYTIC COMBUSTION - PHYSICO-CHEMICAL CHARACTERIZATION AND CATALYTIC ACTIVITY[J].Journal of Catalysis,1997(1):95-103. |
| [40] | Wang J W;Tian Z J;Xu J G;Xu Y P Xu Z S Lin L W .[J].Catalysis Today,2003,83:213. |
| [41] | Li T;Li YD .Effect of magnesium substitution into LaMnAl11O19 hexaaluminate on the activity of methane catalytic combustion[J].Industrial & Engineering Chemistry Research,2008(5):1404-1408. |
| [42] | Ren X G;Zheng J D;Song Y;Liu P J .[J].CATALYSIS COMMUNICATIONS,2008,9:807. |
| [43] | Yu Y;Wang L S;Cui M S;Shi Y X Luo R X Chen A F .[J].RARE METALS,2011,30:337. |
| [44] | Zarur AJ.;Ying JY. .Reverse microemulsion synthesis of nanostructured complex oxides forcatalytic combustion[J].Nature,2000(6765):65-67. |
| [45] | 卢冠忠;张顺海;郭耘;王幸宜, 郭杨龙, 王筠松, 刘晓晖 .[P].CN Patent 1449863A,2003. |
| [46] | Yin F X;Ji S F;Wu P Y;Zhao F Z Li C Y .[J].Journal of Molecular Catalysis A:Chemical,2008,294:27. |
| [47] | 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. |
| [48] | Kirchnerova J;Klvana D .[J].Solid State Ionicis,1999,123:307. |
| [49] | Song K S;Cui H X;Kim S D;Kang S K .[J].Catalysis Today,1999,47:155. |
| [50] | Choudhary V R;Banerjee S;Uphade B S .[J].Applied Catalysis,2000,197:L183. |
| [51] | Pecchi G;Campos C;Pe?a O .[J].Catalysis Today,2011,172:111. |
| [52] | Wang Y G;Ren J W;Wang Y Q;Zhang F Y Liu X H Guo Y Lu G Z .[J].J Phys Chem C,2008,112:15293. |
| [53] | Liang S H;Xu T G;Teng F;Zong R L Zhu Y F .[J].Applied Catalysis B:Environmental,2010,96:267. |
| [54] | Cimino S;Pirone R;Lisi L .[J].Applied Catalysis B:Environmental,2002,35:243. |
| [55] | Salomonsson P;Grifin T;Kasemo B .[J].Applied Catalysis A:General,1993,104:175. |
| [56] | Peter SD.;Perrichon V.;Primet M.;Garbowski E. .NO reduction by CO over aluminate-supported perovskites[J].Catalysis Letters,2000(1/2):27-33. |
| [57] | Cimino S;Benedetto A D;Pirone R;Russo G .[J].Catalysis Today,2001,69:95. |
| [58] | Yi N;Cao Y;Su Y;Dai W L He H Y Fan K N .[J].Journal of Catalysis,2005,230:249. |
| [59] | Adams K M;Cavataio J V;Hammerle R H .[J].Applied Catalysis B:Environmental,1996,10:157. |
| [60] | Allanson R;Blakeman P G;Cooper B J;Hess H Silcock P J Walker A P .[J].Soc Automot Eng,2002,SP-1673:53. |
| [61] | Page D L;Macdonald R J;Edgar B L .[J].Soc Automot Eng,1999,SP-1469:61. |
| [62] | Hung W T .[J].ENERGY POLICY,2006,34:2566. |
| [63] | Winebrake J J;Wang M Q;He D Q .[J].JOURNAL OF THE AIR & WASTE MANAGEMENT ASSOCIATION,2001,51(07):1073. |
| [64] | Huai T;Durbin T D;Rhee S H;Norbeck J M .[J].Inter J Auto Tech,2003,4:9. |
| [65] | Ka?par J;Fornasiero P;Hickey N .[J].Catalysis Today,2003,77:419. |
| [66] | Heck R M;Farrauto R J .[J].Applied Catalysis A:General,2001,221:443. |
| [67] | Lafyatis D S;Ansell G P;Benneu S C;Frost J C Millington P J Raja-ram R R Walker A P Ballinger T H .[J].Applied Catalysis B:Environmental,1998,18:123. |
| [68] | Nishihata Y;Mizuki J;Akao T;Tanaka H Uenishi M Kimura M Okamoto T Hamada N .[J].NATURE,2002,418:164. |
| [69] | Burch R .Knowledge and know-how in emission control for mobile applications[J].Catalysis Reviews. Science and Engineering,2004(3/4):271-333. |
| [70] | Shelef M;McCabe R W .[J].Catalysis Today,2000,62:35. |
| [71] | Wu X D;Weng D .[J].Journal of Rare Earths,2004,22:837. |
| [72] | Ka?par J;Di Monte R;Fornasiero P;Graziani M Bradshaw H Nor-man C .[J].Topics in Catalysis,2001,16:83. |
| [73] | He H;Dai H X;Wong K W;Au C T .[J].Applied Catalysis A:General,2003,251:61. |
| [74] | Fomasiero P;Balducci G;Di Monte R;Ka?par J, Sergo V, Gubitosa G, Ferrero A, Graziani M .[J].Journal of Catalysis,1996,l64:l73. |
| [75] | Sugiura M .[J].CATALYSIS SURVEYS FROM ASIA,2003,7:77. |
| [76] | Nagai Y;Yamamoto T;Tanaka T;Yoshida S Nonaka T Okamoto T Suda A Sugiura M .[J].Catalysis Today,2002,74:225. |
| [77] | Dong F;Suda A;Tanabe T;Nagai Y Sobukawa H Shinjoh H Sugiu-ra M Descorme C Duprez D .[J].Catalysis Today,2004,90:223. |
| [78] | Zhao M W;Shen M Q;Wang J .[J].Journal of Catalysis,2007,248:258. |
| [79] | Rohart E;Larcher O;Deutsch S;Hédouin C A?min H Fajardie F Allain M Macaudière P .[J].Topics in Catalysis,2004,30/31:417. |
| [80] | Matsumoto S .[J].Catalysis Today,2004,90:183. |
| [81] | 蒋平平,卢冠忠,郭杨龙,郭耘,王筠松,张顺海,王幸宜.在CeO2-ZrO2中加入La2O3对改善单Pd三效催化剂性能的作用[J].无机化学学报,2004(12):1390-1396. |
| [82] | Roy S;Hegde M S;Madras G .[J].Applied Energy,2009,86:2283. |
| [83] | Brandenberger S;Krocher O;Tissler A;Althoff R .The State of the Art in Selective Catalytic Reduction of NOx by Ammonia Using Metal-Exchanged Zeolite Catalysts[J].Catalysis Reviews. Science and Engineering,2008(4):492-531. |
| [84] | Long R Q;Yang R T .[J].Journal of the American Chemical Society,1999,121:5595. |
| [85] | Shan W P;Liu F D;He H;Shi X Y Zhang C B .[J].Chemistry Communications,2011,47:8046. |
| [86] | Takahashi N;Shinjoh H;Iijima T;Suzuki T Yamazaki K Yokota K Suzuki H Miyoshi N Matsumoto S Tanizawa T Tanaka T Tateishi S Kasahara K .[J].Catalysis Today,1996,27:63. |
| [87] | Matsumoto S .[J].Catalysis Today,2004,90:183. |
| [88] | Piacentini M;Maciejewski M;Baiker A .[J].Topics in Catalysis,2007,42-43:55. |
| [89] | Strobel R;Krumeich F;Pratsinis SE;Baiker A .Flame-derived Pt/Ba/CexZr1-xO2: Influence of support on thermal deterioration and behavior as NOx storage-reduction catalysts[J].Journal of Catalysis,2006(2):229-238. |
| [90] | Corbos E C;Courtois X;Bion N;Marecot P Duprez D .[J].Applied Catalysis B:Environmental,2007,76:357. |
| [91] | Kim C H;Qi G;Dahlberg K;Li W .[J].SCIENCE,2010,327:1624. |
| [92] | Hibbert D B .[J].Catalysis Reviews-Science and Engineering,1992,34:391. |
| [93] | Cheng WC.;Peters AW.;Zhao X.;Rajagopalan K.;Ziebarth MS. Pereira CJ.;Kim G. .Environmental fluid catalytic cracking technology [Review][J].Catalysis Reviews. Science and Engineering,1998(1/2):39-79. |
| [94] | Hedges S W;Yeh J T .[J].Environmental Progress,1992,11(02):98. |
| [95] | Waqif M;Bazin P;Saur O;Lavalley J C Blanchard G Touret O .[J].Applied Catalysis B:Environmental,1997,11:193. |
| [96] | Trovarelli A;de Leitenburg C;Boaro M;Dolcetti G .[J].Catalysis Today,1999,50:353. |
| [97] | Bagllo J A .[J].Industrial and Engineering Chemistry:Product Research and Development,1982,21:38. |
| [98] | Hibbert D B;Campbell R H .[J].Applied Catalysis,1988,41:289. |
| [99] | Liu W;Wadia C;Flytzani-Stephanopoulos M .[J].Catalysis Today,1996,28:391. |
| [100] | Van der Avert P;Wechuysen B M .[J].ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2002,41:4730. |
| [101] | Van der Avert P;Weckhuysen BM .Low-temperature catalytic destruction of CCl4, CHCl3 and CH2Cl2 over basic oxides[J].Physical chemistry chemical physics: PCCP,2004(22):5256-5262. |
| [102] | 王幸宜,戴启广,郑翊.MCM-41负载的La, Ce和Pt催化剂上三氯乙烯的低温催化燃烧[J].催化学报,2006(06):468-470. |
| [103] | Dai Q G;Wang X Y;Lu G Z .[J].Applied Catalysis B:Environmental,2008,81:192. |
| [104] | Dai Q G;Huang H;Zhu Y;Deng W Bai S X Wang X Y Lu G Z .[J].Applied Catalysis B:Environmental,2012,117-118:360. |
| [105] | Wang X Y;Kang Q;Li D .[J].Applied Catalysis B:Environmental,2009,86:166. |
| [106] | Wang X Y;Kang Q;Li D .[J].CATALYSIS COMMUNICATIONS,2008,9:2158. |
| [107] | Dai Y;Wang X Y;Li D;Dai Q G .[J].Journal of Hazardous Materials,2011,188:132. |
| [108] | Zhou J M;Zhao L;Huang Q Q;Zhou R X Li X K .[J].Catalysis Letters,2009,127:277. |
| [109] | Huang Q Q;Xue X M;Zhou R X .[J].Journal of Hazardous Materials,2010,183:694. |
| [110] | Huang Q Q;Zuo S F;Zhao B;Zhou R X .[J].Journal of Molecular Catalysis A:Chemical,2010,331:130. |
| [111] | Huang Q Q;Xue X M;Zhou R X .[J].Journal of Molecular Catalysis A:Chemical,2011,344:74. |
| [112] | Xu A W;Gao Y;Liu H Q .[J].Journal of Catalysis,2002,207:151. |
| [113] | Zhang Y H;Zhang H X;Xu Y X;Wang Y G .[J].Journal of Solid State Chemistry,2004,177:3490. |
| [114] | Hassan M S;Amna T;Yang O B;Kim H C Khil M S .[J].CERAMICS INTERNATIONAL,2012,38:5925. |
| [115] | Stambouli A B;Traversa E .[J].Renewable & Sustainable Energy Reviews,2002,6:433. |
| [116] | Park S;Vohs J M;Gorte R J .[J].NATURE,2000,404:265. |
| [117] | Wang Z W;Cheng M J;Dong Y L;Zhang M Zhang H M .[J].Journal of Power Sources,2006,156:306. |
| [118] | Wang Z W;Cheng M J;Bi Z H;Dong Y L Zhang H M Zhang J Feng Z C Li C .[J].Materials Letters,2005,59:2579. |
| [119] | Verkerk M J;Keizer K;Burggraaf A J .[J].Journal of Applied Electrochemistry,1980,10:81. |
| [120] | Ishihara T;Matsuda H;Takita Y .[J].Journal of the American Chemical Society,1994,116:3801. |
| [121] | Kuroda K.;Adachi K.;Akikusa J.;Tamou Y.;Komada N. Ishihara T.;Takita Y.;Hashimoto I. .Characterization of solid oxide fuel cell using doped lanthanum gallate[J].Solid state ionics,2000(3/4):199-208. |
| [122] | Sakaki Y.;Kato A.;Imanishi N.;Yamamoto O.;Hattori M.;Iio M.;Esaki Y.;Takeda Y. .Ln_(1-x)Sr_xMnO_3 (Ln = Pr, Nd, Sm and Gd) as the cathode material for solid oxide fuel cells[J].Solid state ionics,1999(3/4):187-194. |
| [123] | Yue X L;Yan A Y;Zhang M;Liu L Dong Y L Cheng M J .[J].Journal of Power Sources,2008,185:691. |
| [124] | Yang M;Zhang M;Yan A Y;Yue X L Hou Z F Dong Y L Cheng M J .[J].Electrochemical and Solid State Letters,2008,11:B34. |
| [125] | Yang M;Zhang M;Yan A Y;Yue X L Hou Z F Dong Y L Cheng M J .[J].Journal of Power Sources,2008,185:784. |
| [126] | Yan A Y;Liu B;Dong Y L;Tian Z J Wang D Z Cheng M J .[J].A Appl Catal B,2008,80:24. |
| [127] | Yan A Y;Yang M;Hou Z;Dong Y L Cheng M J .[J].Journal of Power Sources,2008,185:76. |
| [128] | Zhang M;Yang M;Hou Z F;Dong Y Cheng M .[J].Electrochimica Acta,2008,53:4998. |
| [129] | Ruiz-Morales JC;Canales-Vazquez J;Savaniu C;Marrero-Lopez D;Zhou WZ;Irvine JTS .Disruption of extended defects in solid oxide fuel cell anodes for methane oxidation[J].Nature,2006(7076):568-571. |
| [130] | Huang K.;Goodenough JB.;Wan J. .Oxide-ion conducting ceramics for solid oxide fuel cells[J].Journal of Materials Science,2001(5):1093-1098. |
| [131] | Moil M .[J].Journal of the Electrochemical Society,2002,149:A797. |
| [132] | Fabris S;de Gironcoh S;Baroni S;Vicario G Balducci G .[J].Physical Review B:Condensed Matter,2005,71:041102. |
| [133] | Skorodumova N V;Simak S I;Lundqvist B I;Abrikosov I A Jo-hansson B .[J].Physical Review Letters,2002,89:166601. |
| [134] | Consa J C .[J].Surface Science,1995,339:337. |
| [135] | Sayle T X T;Parker S C;Catlow C R A .[J].Surface Science,1994,316:329. |
| [136] | Yang ZX.;Woo TK.;Baudin M.;Hermansson K. .Atomic and electronic structure of unreduced and reduced CeO2 surfaces: A first-principles study[J].The Journal of Chemical Physics,2004(16):7741-7749. |
| [137] | Esch, F;Fabris, S;Zhou, L;Montini, T;Africh, C;Fornasiero, P;Comelli, G;Rosei, R .Electron localization determines defect formation on ceria substrates[J].Science,2005(5735):752-755. |
| [138] | Li H Y;Wang H F;Gong X Q;Guo Y L Guo Y Lu G Z Hu P .[J].Physical Review B,2009,79:193401-193404. |
| [139] | Namai Y;Fukui K;Iwasawa Y .[J].Journal of Physical Chemistry B,2003,107:11666. |
| [140] | Li, H.-Y.;Wang, H.-F.;Guo, Y.-L.;Lu, G.-Z.;Hu, P. .Exchange between sub-surface and surface oxygen vacancies on CeO _2(111): A new surface diffusion mechanism[J].Chemical communications,2011(21):6105-6107. |
| [141] | Yang Z X;Woo T K;Hermansson K .[J].Journal of Chemical Physics,2006,124:224704. |
| [142] | Dutta, G;Waghmare, UV;Baidya, T;Hegde, MS;Priolkar, KR;Sarode, PR .Reducibility of Ce1-xZrxO2: origin of enhanced oxygen storage capacity[J].Catalysis Letters,2006(3/4):165-172. |
| [143] | Wang H F;Gong X Q;Guo Y L;Guo Y Lu G Z Hu P .[J].J Phys Chem C,2009,113:10229. |
| [144] | Wang H F;Gong X Q;Guo Y L;Guo Y Lu G Z Hu P .[J].ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2009,48:8289. |
| [145] | Palmer MS.;Neurock M.;Olken MM. .Periodic density functional theory study of methane activation over La2O3: Activity of O2-, O-, O-2(2-), oxygen point defect, and Sr2+-doped surface sites[J].Journal of the American Chemical Society,2002(28):8452-8461. |
| [146] | Palmer M S;Neurock M;Olken M M .[J].Journal of Physical Chemistry B,2002,106:6543. |
| [147] | Nolan M;Parker S C;Watson G W .[J].Physical Chemistry Chemical Physics,2006,8:216. |
| [148] | Nolan M;Parker S C;Watson G W .[J].Journal of Physical Chemistry B,2006,110:2256. |
| [149] | Jung C;Tsuboi H;Koyama M;Kubo M Broclawik E Miyamoto A .[J].Catalysis Today,2006,111:322. |
| [150] | Liu Z P;Jenkins S J;King D A .[J].Physical Review Letters,2005,94:196102. |
| [151] | Zhu W J;Zhang J;Gong X Q;Lu G Z .[J].Catalysis Today,2011,165:19. |
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