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1. Low temperature CO oxidation over Pd-Ce catalysts supported on ZSM.. [724]
2. Low temperature carbon monoxide catalytic oxidation at the Pd/Ce-Z.. [516]
3. Influence of promoter on the catalytic activity of high p.. [512]
4. A new method to construct hierarchical ZSM-5 zeolites with excelle.. [476]
5. Butene catalytic cracking to ethylene and propylene on fluorinated.. [462]
6. 低成本原料一步直接合成小晶粒ZSM-5分子筛(英文) [444]
7. Highly active Pd/Fe based catalyst prepared with polyol-red.. [437]
8. Study of One Step Synthesis of Rare Earth Zeolite (Ln–ZSM-5) and .. [411]
9. Influence of the pore structure of CeO2 supports on the surface te.. [375]
10. Fabrication and catalytic properties of Pd and Ce decorated carbon.. [342]
11. High performance phosphorus-modified ZSM-5 zeolite for butene cata.. [338]
12. Butene catalytic cracking to ethylene and propylene on mesoporous .. [323]
13. 负载型Pt催化剂的制备及在甲醇和CO电催化氧化反应中的构效关系研究 [306]
14. Electrocatalytic oxidation of carbon monoxide on platinum-modified.. [301]
15. Deposition of Pd– Fe nanoparticles onto carbon spheres with contr.. [295]
16. Influence of particle size of ZSM-5 on the yield of propylene in f.. [293]
17. C4烃催化裂解增产丙烯催化剂研究进展 [285]
18. High performance rare earth oxides LnOx(Ln = Sc, Y, La, Ce, Pr and.. [273]
19. A simple solution-phase reduction method for the synthesis of shap.. [266]
20. 溶剂热法在金属氧化物和分子筛及贵金属等催化剂制备中的应用研究进展 [229]
21. Highly Efcient Mesoporous V2O5/WO3–TiO2 Catalyst for Selective Ca.. [217]
22. 元素改性对分子筛催化裂化性能的调变作用 [215]
23. 柴油车SCR脱硝金属氧化物催化剂研究进展 [196]
24. 直接甲醇燃料电池阳极电催化剂 [193]
25. Application of new porous binder material in fluid catalytic crack.. [181]
26. Size-controlled synthesis of colloidal platinum nanoparticles and .. [180]
27. Enhanced Catalytic Performance of Three-Dimensional Ordered Mesopo.. [173]
28. ZSM-5分子筛介孔的构筑 [169]
29. Solvothermal synthesis of well-designed ceria-tin-titanium catalys.. [158]
30. One pot synthesized CeO2-WO3-TiO2 catalysts with enriched TiO2 (00.. [155]
31. Effect of Different Pore Structures on the Surface Textures of the.. [153]
32. Fabrication of porous carbon spheres and as support for the applic.. [151]
33. Recent Progress on Establishing Structure-Activity Relationship of.. [151]
34. Surface texture and physicochemical characterization of mesoporous.. [146]
35. One pot synthesis of a highly efficient mesoporous ceria–titanium.. [144]
36. Melamine-assisted to fabricate pure alpha-Fe2O3 polyhedron with hi.. [144]
37. Controlled pore size of ordered mesoporous Al2O3-supported Mn/Cu c.. [143]
38. Promotion of redox and stability features of doped Ce-W-Ti for NH3.. [138]
39. Carefully designed oxygen-containing functional groups and defects.. [137]
40. Structural and Textural Characteristics of Zn-Containing ZSM-5 Zeo.. [132]
41. Synthesis and application of metal-containing ZSM-5 for the select.. [132]
42. Effect of the well-designed functional groups and defects of porou.. [131]
43. 低成本原料合成小晶粒P-ZSM-5分子筛的方法 [130]
44. The remarkable promotional effect of Sn on CeVO4 catalyst for wide.. [129]
45. Investigation of coating technology and catalytic performance over.. [128]
46. Controlled pore size of 3D mesoporous Cu-Ce based catalysts and in.. [128]
47. Controlled Synthesis of TiO2 Shape and Effect on the Catalytic Per.. [125]
48. Influence of pore structures of a carbon support on the surface te.. [124]
49. Morphology-controlled synthesis of 3D flower-like TiO2 and the sup.. [124]
50. Morphology efects on surface chemical properties and lattice defec.. [121]
51. Research Progresses in the Preparation of Co-based Catalyst Derive.. [120]
52. High-Efficiency Environmental-Friendly Fe-W-Ti Catalyst for Select.. [119]
53. Solvothermal Systhesis of Size-Controlled Porous Co3O4 Nanostructu.. [118]
54. The effect of plasma pre-treatment of carbon used as a Pt catalyst.. [117]
55. Carefully Designed Hollow MnxCo3−xO4 Polyhedron Derived from in S.. [116]
56. CeCoOx-MNS catalyst derived from three-dimensional mesh nanosheet .. [115]
57. Fabrication of Cu-Doped CeO2 Catalysts with Different Dimension Po.. [114]
58. Morphology-controlled synthesis of 3D, mesoporous, rosette-like Ce.. [113]
59. Synthesis of High Dispersion and Uniform Nano-sized Flame Retardan.. [110]
60. Exploring the Infuence of Pd Species Valence State and Chemisorbed.. [110]
61. Controlled Synthesis of Mesoporous CeO2‑WO3/TiO2 Microspheres Cat.. [110]
62. Enhancing Water Resistance of a Mn-Based Catalyst for Low Temperat.. [110]
63. Sol-gel one-pot synthesis of efficient and environmentally friendl.. [109]
64. Porous hollow CoInOx nanocubes as a highly efficient catalyst for .. [109]
65. The synergistic catalytic effect between graphene oxide and three .. [109]
66. Hard-template synthesis of three-dimensional mesoporous Cu-Ce base.. [108]
67. Synthesis and characterization of high performance Pt-(PrxCeyOz)/C.. [107]
68. Advances in constructing polymeric carbon-nitride-based nanocompos.. [107]
69. Three-dimensional flower-like OMS-2 supported Ru catalysts for app.. [105]
70. Morphology-Controlled Synthesis of the Metal−Organic Framework-De.. [104]
71. New insight into the synergistic promotion effect of phosphorus an.. [104]
72. Promotion effect of oxygen-containing functional groups and Fe spe.. [103]
73. Construction of Cu-Ce/graphene catalysts via a one-step hydrotherm.. [103]
74. Controllable modulation of oxygen functional groups and structure .. [100]
75. Comprehensive study of the promotional mechanism of F on Ce–Mo/Ti.. [99]
76. 基底表面构建单原子催化剂与催化性能研究进展 [99]
77. 凹凸棒石在烟气SCR脱硝催化反应中的应用研究进展 [98]
78. Ordered mesoporous TiO2 framework confined CeSn catalyst exhibitin.. [97]
79. Co nanoparticles anchoring three dimensional graphene lattice as b.. [96]
80. An environmentally friendly wide temperature CeWTiOx catalyst with.. [96]
81. 一种提高锰基低温SCR催化剂抗水和防尘性能的方法 [95]
82. Well dispersed Pt nanoparticles on commercial carbon black oxidize.. [94]
83. Modification of composite catalytic material CumVnOx@CeO2 core–sh.. [94]
84. 一种提高中低温SCR催化剂抗ABS和抗水防尘性能的方法 [92]
85. Precise design and synthesis of Pd/InOx@CoOx core–shell nanofiber.. [92]
86. Study of Morphology-Dependent and Crystal-Plane Effects of CeMnO x.. [90]
87. Highly efficient catalytic combustion of o-dichlorobenzene over th.. [88]
88. Ratio-controlled synthesis of phyllosilicate-like materials as pre.. [86]
89. The synthesis of hollow In2O3 @ Pd-Co3O4 core/shell nanofibers wit.. [86]
90. 稀土基中低温烟气蜂窝式脱硝催化剂及其制备方法 [85]
91. Construction of carboxyl functional groups and their enhancement e.. [84]
92. Preparation and Application of Ordered Mesoporous Metal Oxide Cata.. [84]
93. Morphology‑Controlled Synthesis of TiO2 with Diferent Structural .. [83]
94. Facile Fabrication of Ce/V-Modified Multi-Channel TiO2 Nanotubes a.. [82]
95. Controlled porous hollow Co3O4 polyhedral nanocages derived from m.. [81]
96. The promoting effect of palygorskite on CeO2-WO3-TiO2 catalyst for.. [81]
97. Design of Prussian blue analogue-derived double-cone structure Ce.. [81]
98. Controlled synthesis of Pd/CoOx–InOx nanofibers for low-temperatu.. [80]
99. Highly efficient catalytic combustion of o-dichlorobenzene over la.. [80]
100. Highly-efficient catalytic combustion performance of 1,2-dichlorob.. [79]

Downloads

1. Influence of promoter on the catalytic activity of high p.. [9]
2. Low temperature CO oxidation over Pd-Ce catalysts supported on ZSM.. [9]
3. Low temperature carbon monoxide catalytic oxidation at the Pd/Ce-Z.. [8]
4. A new method to construct hierarchical ZSM-5 zeolites with excelle.. [8]
5. 柴油车SCR脱硝金属氧化物催化剂研究进展 [8]
6. One pot synthesized CeO2-WO3-TiO2 catalysts with enriched TiO2 (00.. [7]
7. Morphology-controlled synthesis of 3D, mesoporous, rosette-like Ce.. [7]
8. Study of One Step Synthesis of Rare Earth Zeolite (Ln–ZSM-5) and .. [6]
9. Electrocatalytic oxidation of carbon monoxide on platinum-modified.. [6]
10. Fabrication and catalytic properties of Pd and Ce decorated carbon.. [6]
11. Influence of pore structures of a carbon support on the surface te.. [6]
12. Structural and Textural Characteristics of Zn-Containing ZSM-5 Zeo.. [6]
13. One pot synthesis of a highly efficient mesoporous ceria–titanium.. [6]
14. Highly Efcient Mesoporous V2O5/WO3–TiO2 Catalyst for Selective Ca.. [6]
15. Carefully designed oxygen-containing functional groups and defects.. [6]
16. Recent Progress on Establishing Structure-Activity Relationship of.. [6]
17. Solvothermal synthesis of well-designed ceria-tin-titanium catalys.. [6]
18. Sol-gel one-pot synthesis of efficient and environmentally friendl.. [6]
19. Enhancing Water Resistance of a Mn-Based Catalyst for Low Temperat.. [6]
20. Butene catalytic cracking to ethylene and propylene on fluorinated.. [5]
21. Highly active Pd/Fe based catalyst prepared with polyol-red.. [5]
22. High performance rare earth oxides LnOx(Ln = Sc, Y, La, Ce, Pr and.. [5]
23. Influence of the pore structure of CeO2 supports on the surface te.. [5]
24. Deposition of Pd– Fe nanoparticles onto carbon spheres with contr.. [5]
25. Enhanced Catalytic Performance of Three-Dimensional Ordered Mesopo.. [5]
26. Effect of Different Pore Structures on the Surface Textures of the.. [5]
27. ZSM-5分子筛介孔的构筑 [5]
28. Investigation of coating technology and catalytic performance over.. [5]
29. Synthesis and application of metal-containing ZSM-5 for the select.. [5]
30. Controlled pore size of ordered mesoporous Al2O3-supported Mn/Cu c.. [5]
31. 溶剂热法在金属氧化物和分子筛及贵金属等催化剂制备中的应用研究进展 [5]
32. Morphology-controlled synthesis of 3D flower-like TiO2 and the sup.. [5]
33. High-Efficiency Environmental-Friendly Fe-W-Ti Catalyst for Select.. [5]
34. Controlled Synthesis of TiO2 Shape and Effect on the Catalytic Per.. [5]
35. The remarkable promotional effect of Sn on CeVO4 catalyst for wide.. [5]
36. 低成本原料一步直接合成小晶粒ZSM-5分子筛(英文) [4]
37. Surface texture and physicochemical characterization of mesoporous.. [4]
38. Promotion of redox and stability features of doped Ce-W-Ti for NH3.. [4]
39. Melamine-assisted to fabricate pure alpha-Fe2O3 polyhedron with hi.. [4]
40. Construction of Cu-Ce/graphene catalysts via a one-step hydrotherm.. [4]
41. Solvothermal Systhesis of Size-Controlled Porous Co3O4 Nanostructu.. [4]
42. Morphology-Controlled Synthesis of the Metal−Organic Framework-De.. [4]
43. Controlled Synthesis of Mesoporous CeO2‑WO3/TiO2 Microspheres Cat.. [4]
44. Three-dimensional flower-like OMS-2 supported Ru catalysts for app.. [4]
45. Comprehensive study of the promotional mechanism of F on Ce–Mo/Ti.. [4]
46. Morphology‑Controlled Synthesis of TiO2 with Diferent Structural .. [4]
47. Preparation and Application of Ordered Mesoporous Metal Oxide Cata.. [4]
48. Design of Prussian blue analogue-derived double-cone structure Ce.. [4]
49. A simple solution-phase reduction method for the synthesis of shap.. [3]
50. The effect of plasma pre-treatment of carbon used as a Pt catalyst.. [3]
51. Size-controlled synthesis of colloidal platinum nanoparticles and .. [3]
52. 直接甲醇燃料电池阳极电催化剂 [3]
53. Fabrication of porous carbon spheres and as support for the applic.. [3]
54. Hard-template synthesis of three-dimensional mesoporous Cu-Ce base.. [3]
55. Controlled pore size of 3D mesoporous Cu-Ce based catalysts and in.. [3]
56. Fabrication of Cu-Doped CeO2 Catalysts with Different Dimension Po.. [3]
57. Controllable modulation of oxygen functional groups and structure .. [3]
58. An environmentally friendly wide temperature CeWTiOx catalyst with.. [3]
59. New insight into the synergistic promotion effect of phosphorus an.. [3]
60. 一种以偏钛酸为原料制备宽工作温度脱硝催化剂的方法 [3]
61. 一种提高中低温SCR催化剂抗ABS和抗水防尘性能的方法 [3]
62. 一种提高锰基低温SCR催化剂抗水和防尘性能的方法 [3]
63. Facile Fabrication of Ce/V-Modified Multi-Channel TiO2 Nanotubes a.. [3]
64. Modification of composite catalytic material CumVnOx@CeO2 core–sh.. [3]
65. Precise design and synthesis of Pd/InOx@CoOx core–shell nanofiber.. [3]
66. 一种CO常温催化氧化催化剂 [3]
67. 一种蜂窝式稀土基中低温脱硝催化剂及其制备方法 [3]
68. 一种改性Ce-Ti中低温烟气脱硝催化剂粉体及其制备方法 [3]
69. 一种锰基超低温脱硝催化剂粉体及其制备方法 [3]
70. 一种稀土基中低温脱硝催化剂粉体及其制备方法 [3]
71. The water resistance enhanced strategy of Mn based SCR catalyst by.. [3]
72. MnFeOx @TiO2 Nanocages for Selective Catalytic Reduction of NO wit.. [3]
73. A strategy for constructing highly efficient yolk-shell Ce@Mn@TiO .. [3]
74. 元素改性对分子筛催化裂化性能的调变作用 [2]
75. Influence of particle size of ZSM-5 on the yield of propylene in f.. [2]
76. Application of new porous binder material in fluid catalytic crack.. [2]
77. Synthesis of High Dispersion and Uniform Nano-sized Flame Retardan.. [2]
78. Ratio-controlled synthesis of phyllosilicate-like materials as pre.. [2]
79. Co nanoparticles anchoring three dimensional graphene lattice as b.. [2]
80. Promotion effect of oxygen-containing functional groups and Fe spe.. [2]
81. Highly-efficient catalytic combustion performance of 1,2-dichlorob.. [2]
82. Outstanding Water-Resistance Pd-Co Nanoparticles Functionalized Me.. [2]
83. Morphology efects on surface chemical properties and lattice defec.. [2]
84. Porous hollow CoInOx nanocubes as a highly efficient catalyst for .. [2]
85. 稀土基中低温烟气蜂窝式脱硝催化剂及其制备方法 [2]
86. 一种用于催化氧化消除窑炉烟气中二噁英的催化剂及其制备方法 [2]
87. CeCoOx-MNS catalyst derived from three-dimensional mesh nanosheet .. [2]
88. The synthesis of hollow In2O3 @ Pd-Co3O4 core/shell nanofibers wit.. [2]
89. The promoting effect of palygorskite on CeO2-WO3-TiO2 catalyst for.. [2]
90. A strategy to construct uniform MOFs/PAN nanowire derived bead-lik.. [2]
91. Rationally Designed Synthesis of Metal−Organic FrameworkDerived C.. [2]
92. The three-dimensional carbon nanosheets as high performance cataly.. [2]
93. Methanol electrocatalytic oxidation over Pt nanoparticles anchorin.. [2]
94. The Effects of Surface Modifcation of ATP on the Performance .. [2]
95. 一种蜂窝式超低温脱硝催化剂及其制备方法 [2]
96. High performance phosphorus-modified ZSM-5 zeolite for butene cata.. [1]
97. C4烃催化裂解增产丙烯催化剂研究进展 [1]
98. Synthesis and characterization of high performance Pt-(PrxCeyOz)/C.. [1]
99. 负载型Pt催化剂的制备及在甲醇和CO电催化氧化反应中的构效关系研究 [1]
100. 低成本原料合成小晶粒P-ZSM-5分子筛的方法 [1]