Zeolites and Mesoporous materials - Catalysis

What are Zeolites?

Zeolites are crystalline aluminosilicates characterized by a three-dimensional framework of SiO4 and AlO4 tetrahedra, interconnected by shared oxygen atoms. They have well-defined pore structures and high surface areas, making them highly effective as catalysts, adsorbents, and ion-exchangers.

Why are Zeolites Used in Catalysis?

Zeolites are extensively used in catalysis due to their unique properties. Their uniform pore size allows for selective catalysis, enabling specific molecules to enter and react within the pores. This selectivity is crucial in processes like hydrocracking, isomerization, and catalytic cracking in the petrochemical industry. Additionally, their high thermal stability and resistance to deactivation by coking make them ideal for harsh industrial conditions.

What are Mesoporous Materials?

Mesoporous materials are a class of materials that possess pores with diameters between 2 and 50 nanometers. Unlike zeolites, which have micropores (

Relevant Publications

Alkali-Metal-Assisted Green-Solvent Synthesis for In Situ Growth of Perovskite Nanocrystals in Porous Materials.

Issue Release: 2024

Recent developments in (bio)ethanol conversion to fuels and chemicals over heterogeneous catalysts.

Issue Release: 2024

Comparative study on Al-SBA-15 prepared by spray drying and traditional methods for bulky hydrocarbon cracking: Properties, performance and influencing factors.

Issue Release: 2024

Monolithic Zirconium-based Metal-Organic Frameworks for Energy-Efficient Water Adsorption Applications.

Issue Release: 2023

Pore partition in two-dimensional covalent organic frameworks.

Issue Release: 2023

Advances in Emerging Catalytic Materials for the Conversion of Carbon Dioxide.

Issue Release: 2023

Materials Space-Tectonics: Atomic-level Compositional and Spatial Control Methodologies for Synthesis of Future Materials.

Issue Release: 2023

Regioselective Surface Assembly of Mesoporous Carbon on Zeolites Creating Anisotropic Wettability for Biphasic Interface Catalysis.

Issue Release: 2023

Novel 3D-Printed Biocarriers from Aluminosilicate Materials.

Issue Release: 2023

First successful synthesis of an Al-rich mesoporous aluminosilicate for fast radioactive strontium capture.

Issue Release: 2023

Advanced zeolite and ordered mesoporous silica-based catalysts for the conversion of CO to chemicals and fuels.

Issue Release: 2023

Intraparticle ripening to create hierarchically porous Ti-MOF single crystals for deep oxidative desulfurization.

Issue Release: 2023

Improving the performance of ASA in the DAC of 2,5-DMF and ethylene.

Issue Release: 2023

Absolute Quantification of Residual Solvent in Mesoporous Silica Drug Formulations Using Magic-Angle Spinning NMR Spectroscopy.

Issue Release: 2022

Role of Zeolite Structural Properties toward Iodine Capture: A Head-to-head Evaluation of Framework Type and Chemical Composition.

Issue Release: 2022

Effect of the Topology on Wetting and Drying of Hydrophobic Porous Materials.

Issue Release: 2022

Tunable Solid Acid Catalyst Thin Films Prepared by Atomic Layer Deposition.

Issue Release: 2022

Recent Advances in Porous Materials for Photocatalytic CO Reduction.

Issue Release: 2022

Step-By-Step Modeling and Demetallation Experimental Study on the Porous Structure in Zeolites.

Issue Release: 2022

Porous Silicon Carbide (SiC): A Chance for Improving Catalysts or Just Another Active-Phase Carrier?

Issue Release: 2021

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