Nanoporous Iron Metal Organic Frameworks (MIL-89, Purity: 99%, APS: 30-40µm)

Nanoporous Iron Metal-Organic Frameworks

Applications

Catalysis
Nanoporous Fe-MOFs are widely explored for catalytic applications due to their iron-based active sites, which can participate in various chemical reactions, such as oxidation, reduction, and C-C bond formation. These materials are especially beneficial for green chemistry applications, as they can replace more expensive or toxic catalysts, like those based on precious metals. Fe-MOFs are also used in heterogeneous catalysis for reactions like the reduction of pollutants, hydrocarbon oxidation, and even in the conversion of renewable biomass into valuable chemicals.

Gas Storage and Separation
Due to their high surface area and tunable pore sizes, nanoporous Fe-MOFs are effective materials for gas storage and separation. They have been shown to adsorb a wide range of gases, including hydrogen, methane, carbon dioxide, and nitrogen, making them ideal candidates for clean energy applications, such as hydrogen fuel cells, natural gas storage, and carbon capture. Fe-MOFs are also being studied for their ability to selectively separate gases from mixtures, which could have applications in industrial gas processing, air purification, and environmental monitoring.

Environmental Remediation
The ability of nanoporous Fe-MOFs to adsorb and degrade pollutants makes them valuable materials in environmental remediation. These materials are being used to remove heavy metals, organic contaminants, and toxic substances from water and air. Sensors and Detection
Nanoporous Fe-MOFs can be used as highly sensitive sensors due to their large surface area, structural flexibility, and the ability to interact selectively with specific molecules. These materials can be designed to detect gases such as ammonia, carbon monoxide, or volatile organic compounds (VOCs), making them valuable for environmental monitoring, industrial safety, and health diagnostics.