IRMOF-1 MOF-5(Hydrothermal method)

Product Name

Name:  IRMOF-1 MOF-5(Hydrothermal method)

^{Product Overview}

IRMOF-1 is a metal-organic framework (MOF) material consisting of metal ions and organic ligands, and is sometimes called MOF-5(Zn) because zinc (Zn) is one of its commonly used metal centers. IRMOF-1 is usually produced by solvent-thermal synthesis. By adjusting reaction conditions (such as temperature, pressure, solvent, etc.), the crystal structure and properties of IRMOF-1 can be controlled

^{Technical Parameter}

Composition:Zn4O(BDC)3

Diameter:80μm~400μm

Specific surface area:~955m2/g

Pore diameter:0.8nm

Appearance:White crystalline grains

^{Product Features}

Chemical stability: IRMOF-1 has certain chemical stability, which can maintain the stability of its structure and performance under certain conditions.

Gas adsorption and separation: IRMOF-1 is widely used in the field of gas adsorption and separation due to its high specific surface area and porosity. For example, it can be used to adsorb and separate gases such as hydrogen and carbon dioxide.

Catalysis: IRMOF-1 can also be used as a catalyst or catalyst carrier to catalyze various chemical reactions. Its highly dispersed metal sites and ordered pore structure provide a favorable environment for catalytic reactions

Application Fields

Hydrogen storage: IRMOF-1 is a potential hydrogen storage material due to its high porosity and specific surface area, which can effectively adsorb and store hydrogen.

Carbon dioxide capture: In terms of greenhouse gas reduction, IRMOF-1 is able to selectively adsorb carbon dioxide, helping to achieve carbon dioxide capture

Catalytic reaction: Metal centers and organic ligands in IRMOF-1 can be used as catalytic active sites and participate in the catalytic process of a variety of chemical reactions. For example, it shows good catalytic performance in transesterification reaction and oxidation reaction

Supercapacitors: IRMOF-1's pore structure and high specific surface area are conducive to electrolyte penetration and charge storage, so it can be used as an electrode material for supercapacitors

Gas sensors: Using IRMOF-1's sensitivity to specific gases, highly sensitive gas sensors can be prepared to detect harmful gases or biomarkers in the environment

Related Information

^{This product is extremely sensitive to water oxygen, please keep dry and sealed away from light at room temperature. Vacuum drying at 120℃ could optimize product performance. Expiry date: Half one year if stored in an airtight container, please use it within two weeks after opening.}

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