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Keyword [Ru based]
Result: 41 - 60 | Page: 3 of 6
41. Study Of Supported Ionic Liquid Ru-based Catalysts For Acetylene Hydrochlorination
42. Catalytic Selective Dehydrogenation Of Guaiacol To Benzene With Different Ru-based Catalysts In Water
43. Study On The Modification Of Ru-based Catalyst For Acetylene Hydrochlorination
44. Study On The Performance Of Multi-elements Doped Nano-magnesia And Its Supported Ru-based Catalysts For Ammonia Synthesis
45. Study Of Ru-Based Supported Catalysts For Selective Catalytic Reduction Of NO_x By CO At Oxygen-rich Conditions
46. Oxygen Vacancies Promoted Hydrogen Spillover Over Ru-based Catalysts
47. Deactivation Mechanism Based On Carbon Gasification For Carbon-supported Ru-based Ammonia Synthesis Catalyst And Its Application
48. Hydrogenation Of Carbon Dioxide To Formic Acid Catalyzed By MOF Supported Ru-based Catalyst
49. Controllabe Preparation And Performance Of Ru/CexZr1-xO2 Catalysts For Steam Reforming Of Long-chain Paraffins
50. Study On The Performance Of Humic Acid Doped Magnesis And Ite Supported Ru-Based Catalysts For Ammonia Synthesis
51. Controlled Synthesis Of Ru-based Two-dimensional Nanomaterials For Hydrogen Evolution Reaction
52. N-contained Ionic Liquid Modified Ru-based Catalyst Used In Acetylene Hydrochlorination
53. Structural Modulation And Catalytic Performance Of The Ru/CeO2 Catalysts For Ammonia Synthesis Under Mild Conditions
54. Highly Selective Amination Of Alcohols In Ammonia Over Ru-Based Heterogeneous Catalysts
55. Preparation Of Ru-based Electrocatalysts For Oxygen Evolution Reaction By Magnetron Sputtering
56. Ru-based Catalysts For Catalytic Hydrogen Production Ammonia-borane Hydrolysis
57. Preparation Of Modified Supporter Supported Ru-based Catalysts And Study Its Catalysis On Hydrogenation Of Benzene
58. Ammonia Decomposition Over Rare Oxides Support Ru And Ni Catalysts For The On-site Generation Of Hydrogen
59. Study On The Performance Of Benzene Selective Hydrogenation For Ru/TiO2 Catalyst
60. Controllable Synthesis And Preliminary Insight To Catalysis Performance Of Ru-based Nanoparticles
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