1 gram: 159 €
5 grams: 695 €
10 grams: 1190 €

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MIL-101(Fe)

MIL-101(Fe) is a highly crystalline metal-organic framework (MOF) composed of iron (Fe) clusters and 1,4-benzenedicarboxylate (BDC) linkers. It is characterized by its exceptionally large pore size, high internal surface area, and robust thermal stability. The iron-based metallic centers provide unique redox activity and significant Lewis acid sites, making it a superior alternative for applications in heterogeneous catalysis and environmental remediation. Due to its biocompatible and eco-friendly nature, MIL-101(Fe) is particularly ideal for advanced drug delivery systems, phosphate removal from water, and selective gas adsorption (especially CO2 and H2 storage). Our MIL-101(Fe) is produced with precise control over its octahedral morphology and high phase purity to ensure maximum performance in both research and industrial-scale applications.

Technical Properties

XRD Analysis

Applications

• Heterogeneous Catalysis: Acts as a high-performance catalyst for oxidation, hydrogenation, and Lewis acid-catalyzed organic transformations due to its dense population of active iron sites.
• Gas Adsorption and Carbon Capture: Leverages its massive pore volume for the efficient sequestration of CO2 and the high-capacity storage of clean energy gases like H2 and CH4.
• Environmental Remediation: Exhibits superior efficiency in the adsorptive removal of hazardous pollutants from wastewater, including heavy metals, phosphates, arsenic, and organic dyes.
• Advanced Drug Delivery: Utilized as a non-toxic, biocompatible carrier for the encapsulation and controlled release of therapeutic agents, benefiting from its large cages and stable framework.
• Water Purification: Employed in advanced adsorption-based cooling and desalination systems due to its high water vapor uptake capacity and hydrothermal stability.
• Energy Storage Systems: Serves as a high-surface-area precursor or active component in the development of next-generation electrodes for supercapacitors and lithium-ion batteries.
• Chemical Sensing: Integrated into sensory devices for the selective detection of volatile organic compounds (VOCs) and liquid-phase toxins through molecular sieving and guest-host interactions.