Ferrous Metal Organic Framework (MIL-53)

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Product Details:

Particle Size <20 nm (nanoparticles)
Purity(%) >98% (HPLC grade)
Usage & Applications Gas storage, catalysis, chemical sensing, separation processes, lithium-ion battery material
Metal Type Iron (Fe(III))
Melting Point Decomposes above 400 C
Grade Analytical Grade
Product Type Ferrous Metal-Organic Framework
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Ferrous Metal Organic Framework (MIL-53) Price And Quantity

Ferrous Metal Organic Framework (MIL-53) Product Specifications

Weight Custom packaging, e.g., 10 g, 25 g, 50 g
Size Variable, supplied as powder
Product Type Ferrous Metal-Organic Framework
Shape Powder / Nanoparticles
Density 0.9 Gram per cubic centimeter(g/cm3)
Material Fe-BDC (Iron-based Metal-Organic Framework)
Chemical Composition Fe(III) terephthalate (MIL-53 structure)
Usage & Applications Gas storage, catalysis, chemical sensing, separation processes, lithium-ion battery material
Metal Type Iron (Fe(III))
Color Brownish orange
Grade Analytical Grade
Melting Point Decomposes above 400 C
Purity(%) >98% (HPLC grade)
Particle Size <20 nm (nanoparticles)
Dimension (L*W*H) N/A (powder form)

Ferrous Metal Organic Framework (MIL-53) Trade Information

Payment Terms Paypal, Cash Advance (CA), Western Union, Telegraphic Transfer (T/T), Cash in Advance (CID), Cheque
Supply Ability 50000 , Per Year
Delivery Time 7 Week
Main Export Market(s) Australia, North America, South America, Eastern Europe, Western Europe, Middle East, Central America, Africa, Asia
Main Domestic Market All India

Product Description

Specification

Product Name	Ferrous Metal Organic Framework
Stock No.	NCZMOF104
CAS	7439-89-6
Purity	99%
APS	30-40 m
Molecular Formula	Fe(OH)(O2C-C6H4-CO2)
Molecular Weight	229.60g/ mol
Odour	Odorless
Color	White
Density	0.35 g/ cm3
Pore Size	~10
SSA	~1300 m2/g (BET)
Solubility	Ethanol
Application	Liquid Adsorption: Methanol, ethanol, Gas Adsorption
Linker	TPA, H2BDC, BDC (Terephthalic acid)

Exceptional Surface Area & Thermal Stability

MIL-53 (Fe-BDC) stands out by delivering a significant BET surface area (12001600 m/g), enabling superior adsorption and catalysis. The materials stability up to 400C in air ensures it is well-suited for robust, high-performance industrial and research applications in challenging environments.

Microporous Structure for Diverse Applications

The 3D orthorhombic microporous framework of MIL-53, with a precise pore size of ~0.85 nm, facilitates selective molecular sieving and efficient storage, separation, and sensing. Its application spectrum covers gas adsorption, battery technology, chemical analysis, and separation science.

Safe Storage and Handling Instructions

To maximize shelf life and maintain performance, MIL-53 powder should be stored in a cool, dry place under inert gas conditions and sealed in its original packaging. With a shelf life of 24 months, proper storage ensures the integrity and purity necessary for analytical and industrial uses.

FAQs of Ferrous Metal Organic Framework (MIL-53):

Q: How should MIL-53 (Fe-BDC) be stored for maximum shelf life?

A: MIL-53 should be stored in a cool, dry place under inert gas, sealed in its original packaging. This preserves its purity and stability, maintaining shelf life for up to 24 months.

Q: What are the main applications of MIL-53 iron-based MOF?

A: MIL-53 is widely utilized for gas storage, catalytic reactions, chemical sensing, separation processes, and as a material for lithium-ion batteries, owing to its high surface area and microporous nature.

Q: When is MIL-53 preferable over other MOFs in industrial settings?

A: MIL-53 is especially suited for applications requiring high thermal stability (up to 400C) and efficient adsorption or separation, such as gas storage and catalysis, due to its robust structure and high purity.

Q: Where can this product be sourced from in India?

A: MIL-53 (Fe-BDC) is available through reputable scientific material suppliers, importers, exporters, retailers, manufacturers, and traders, complying with CAS 373327-50-3 and HS Code 28421090.

Q: What process is used to synthesize MIL-53 nanoparticles?

A: MIL-53 is synthesized via hydrothermal methods, resulting in nanoparticles of less than 20 nm, which ensure high surface area and enhanced performance in various applications.

Q: How does the microporous framework benefit gas storage and separation?

A: The 3D microporous orthorhombic structure, with ~0.85 nm pores, enables selective molecular adsorption and efficient separation, making MIL-53 highly effective in gas storage and chemical separation processes.

Q: Is MIL-53 soluble in common solvents or water?

A: No, MIL-53 (Fe-BDC) is insoluble in water and common organic solvents, which maintains its structural integrity for advanced applications.

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