Zinc Based Metal Organic Framework (Zn (MOF-177), Purity: 99%, APS: 30-40um)

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Product Details:

Particle Size 30-40 m
Metal Type Zinc
Melting Point Decomposes before melting
Purity(%) 99%
Usage & Applications Gas storage, Catalysis, Separation, Sensing, Electrochemical energy storage
Grade Technical Grade
Product Type Metal Organic Framework (MOF)
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Zinc Based Metal Organic Framework (Zn (MOF-177), Purity: 99%, APS: 30-40um) Price And Quantity

Zinc Based Metal Organic Framework (Zn (MOF-177), Purity: 99%, APS: 30-40um) Product Specifications

Material Zinc-based Metal Organic Framework
Shape Powder
Usage & Applications Gas storage, Catalysis, Separation, Sensing, Electrochemical energy storage
Grade Technical Grade
Chemical Composition Zinc-based Metal Organic Framework (Zn-MOF-177)
Color White to off-white
Purity(%) 99%
Weight Customizable, usually available in 1g, 10g, or larger packages
Melting Point Decomposes before melting
Size 30-40 m (average particle size)
Dimension (L*W*H) N/A (Powder Form)
Particle Size 30-40 m
Metal Type Zinc
Product Type Metal Organic Framework (MOF)
Density 0.35 Gram per cubic centimeter(g/cm3)

Zinc Based Metal Organic Framework (Zn (MOF-177), Purity: 99%, APS: 30-40um) Trade Information

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

Product Description

Specification

Product Name	Zinc Based Metal Organic Framework
Stock No.	NCZMOF120
CAS	7440-66-6
Purity	99%
APS	30-40m
Molecular Formula	C27H18Zn3O6
Molecular Weight	229.60 g/mol
Odour	Odorless
Color	Bluish-silver
Density	0.35 g/cm3
Pore Size	~10
SSA	~1300 m2/g (BET)
Solubility	Ethanol
Application	Gas adsorption: Carbon dioxide, nitrogen, hydrogen gas, large organic molecules
Linker	H3BTB (1,3,5-tris(4-carboxyphenyl)benzene)

Exceptional Porosity and Surface Area

Zn (MOF-177) boasts a remarkable surface area and high porosity, with values commonly exceeding 1.5 cm/g. This unique architecture supports efficient gas adsorption and catalysis, enabling innovative solutions in energy and separation technologies. Its powder form, with controlled particle size, ensures adaptability across diverse research and industrial settings.

Reliable Storage and Handling

Due to its moisture sensitivity, Zn (MOF-177) needs storage under dry, inert conditions to preserve stability. Packaging in sealed containers helps defend against atmospheric moisture and contamination, maximizing lifespan and consistent performance. Safe handling practices with suitable PPE are essential to avoid contact and inhalation risks.

FAQs of Zinc Based Metal Organic Framework (Zn (MOF-177), Purity: 99%, APS: 30-40um):

Q: How should Zn (MOF-177) be stored to ensure maximum stability?

A: Zn (MOF-177) should be kept tightly closed, dry, and under an inert atmosphere. Storage in sealed bottles or bags is recommended to protect it from moisture, which can affect its structure and performance.

Q: What are the typical applications of Zn (MOF-177)?

A: This material is commonly used in gas storage, catalysis, separation processes, chemical sensing, and electrochemical energy storage, thanks to its exceptional porosity and surface area.

Q: When is Zn (MOF-177) most beneficial for research or industrial processes?

A: Zn (MOF-177) is especially valuable when high surface area and porosity are required, such as during gas adsorption experiments, separation technologies, and catalytic reactions.

Q: Where is Zn (MOF-177) sourced from, and who supplies it?

A: Zn (MOF-177) is produced and supplied by ISO-certified manufacturers, exporters, and distributors in India. It is available through a wide network including dealers, suppliers, and traders.

Q: What precautions should be taken when handling Zn (MOF-177)?

A: To ensure safety, use appropriate personal protective equipment (PPE), and avoid inhaling the powder or direct contact with skin and eyes. Handle in a well-ventilated area.

Q: Which process parameters affect the quality of Zn (MOF-177)?

A: Optimal particle size (30-40 m), controlled synthesis, and proper storage conditions are critical for maintaining its high purity, porosity, and stability.

Q: What are the main benefits of using Zn (MOF-177) in scientific and industrial applications?

A: Its high surface area, substantial porosity, and stable cubic structure make Zn (MOF-177) ideal for enhancing efficiency in gas storage, catalysis, and advanced separation technologies.

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