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Full Description
Convert low-carbon molecules into high-value products using zeolite catalysis
Converting abundant low-carbon molecules like CO, CO2, methane, and methanol into valuable chemicals requires robust catalysts with precise control over activity and selectivity. Zeolite Catalysis for Low-Carbon Molecule Conversion: Synthesis, Characterization, and Applications provides researchers and engineers with detailed guidance on designing metal-zeolite bifunctional catalysts that outperform single-function alternatives in activity, selectivity, and stability.
This reference covers synthesis and characterization of zeolite-encapsulated catalysts and hierarchical zeolites, then examines catalytic conversion of CO, CO2, methane, and methanol over various zeolite types. Additional chapters address hydrogenation, dehydrogenation, and oxidation reactions. Novel preparation methods enable tailoring zeolite pores and properties for specific applications, connecting fundamental principles with industrial implementation.
The book also covers:
Detailed methods for synthesizing zeolite-encapsulated catalysts and hierarchical zeolites with tunable acidities and uniform micropore structures
Characterization techniques for analyzing zeolite properties including pore structure, thermal stability, and catalytic performance under operating conditions
Catalytic conversion pathways for C1 chemicals and light alkenes derived from fossil fuels and biomass feedstocks
Metal-zeolite bifunctional catalyst design using impregnation, ion exchange, and in-situ synthesis to optimize activity and selectivity
Industrial applications in heterogeneous catalytic processes including hydrogenation, dehydrogenation, and selective oxidation reactions
Catalytic chemists, materials scientists, chemical engineers, and industrial researchers seeking to advance zeolite-based catalysis will benefit from this reference. By connecting catalyst design principles with practical conversion processes, Zeolite Catalysis for Low-Carbon Molecule Conversion supports both fundamental research and commercial development of sustainable chemical production technologies.
Contents
Part I: Introduction
Chapter 1. Challenges and Opportunities of Zeolite in the Conversion of Low-Carbon Molecules
Part II: Synthesis of Zeolite
Chapter 2. Synthesis of Zeolite-Encapsulated Metal Catalysts for Catalytic Conversion of Low-Carbon Molecules
Chapter 3. Synthesis of Hierarchical Zeolites for Catalytic Conversion of Low-Carbon Molecules
Chapter 4. Characterization of Zeolite Catalysts in Catalytic Conversion of Low-Carbon Molecules
Part III: CO Conversion
Chapter 5. Fischer-Tropsch Synthesis
Chapter 6. Syngas to Oxygen-Containing Chemicals
Chapter 7. Carbonylation
Part IV: CO2 Conversion
Chapter 8. Hydrogenation of CO2 To Oxygen-Containing Chemicals
Chapter 9. Hydrogenation of CO2 To Hydrocarbons
Part V: Methane Conversion
Chapter 10. Selective Oxidation of Methane
Chapter 11. Methane to Higher Hydrocarbons
Part VI: Methanol Conversion
Chapter 12. Methanol to Hydrocarbons
Part VII: Other Reactions
Chapter 13. Hydrogenation of Unsaturated Hydrocarbons
Chapter 14. Dehydrogenation Reaction of Light Alkanes
Chapter 15. Alkene Epoxidation
Part VIII: Prospect
Chapter 16. Summary and Outlook
