Design and Synthesis a Novel Supported Pd-Pt Mesoporous Composite as Catalysts for the Polyaromatic Hydrogenation

Wei Qiang Wang; Hai Juan Zhang; Ming Wu

doi:10.4028/www.scientific.net/AMR.881-883.260

Paper Titles

The Catalyzed Synthesis of Prenyl Alcohol in Anhydrous System
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Preparation of TiO₂-Al₂O₃ Support and Hydrodenitrogenation over Ni₂P/TiO₂-Al₂O₃Catalyst
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Study of the Performance of the Cobalt Based Catalyst on Different Supports for Fischer-Tropsch Synthesis
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Photocatalytic Performance of ZnO Prepared by Sol-Gel Method with the Assistance of CTAB
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Design and Synthesis a Novel Supported Pd-Pt Mesoporous Composite as Catalysts for the Polyaromatic Hydrogenation
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Effective Hydrogenation of p-Chloronitrobenzene over Iridium Nanoparticles Entrapped in Aluminum Oxy-Hydroxide under Mild Conditions
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Reactivity of Olefins and Thiophenes in Hydrodesulfurization of FCC Gasoline
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The Bimetallic Synergistic Effect in Heterogeneous UV/Fenton System for the Treatment of Refractory 6-Nitryl Wastewater
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The Influence of Preparation Procedures on Hydrogenation CO₂ to Formic Acid over Supported Ru Catalysts
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 881-883Design and Synthesis a Novel Supported Pd-Pt...

Design and Synthesis a Novel Supported Pd-Pt Mesoporous Composite as Catalysts for the Polyaromatic Hydrogenation

Abstract:

Hydrothermally stable mesoporous aluminosilicates with tubular morphology and hexagonal nanochannels were prepared by a new route. The route is different from conversational method of highly ordered MCM-41 assembled from Beta zeolite seed colloidal. The synthesis of Beta zeolite-like seeds is a novel route of acid treatment. The XRD results indicated that the synthesized materials were well-ordered hexagonal mesostructures of MCM-41. The highly regular hexagonal mesostructures could survive by steaming at 750 °C for 2 h, exhibiting good hydrothermal stability. Combining the SEM investigation, the as-made materials showed tubular morphology with diameter of 0.4 μm. The sample has a stronger acid strength, and was used as the support of a Pd-Pt catalyst for the polyaromatics hydrogenation. It has high activity and good sulfur tolerance towards hydrogenation of aromatics of smaller diameter. It was demonstrated that the introduction of building units of Beta zeolite enhances the activity of polyaromatics hydrogenation. It can be concluded that the pore structure and acidity of support is a key factor for the design of a sulfur tolerant noble metal catalyst for aromatics saturation of diesel.