Zinc MOFs Methylimidazole ZIF-8 Metal Organic Framework
Zinc Salt ZIF-8 MOFs, High Purity, Low Price, Worldwide Shipping
NanowizTech manufactures and supplies premium ZIF-8 (Methylimidazole Zinc Salt) Metal Organic Framework with molecular formula C8H10N4Zn and CAS No. 59061-53-9 for catalysis, gas adsorption, drug delivery, environmental research, and advanced nanotechnology applications. NanowizTech ZIF-8 Metal Organic Framework (MOF), also known as Methylimidazole Zinc Salt Powder, is a highly advanced porous crystalline material widely used in modern nanotechnology, chemical engineering, and material science research. With the chemical formula C8H10N4Zn and CAS No. 59061-53-9, this MOF belongs to the zeolitic imidazolate framework (ZIF) family, which is known for exceptional thermal stability, tunable porosity, and high surface area. NanowizTech is recognized as a trusted global manufacturer and supplier of high-purity ZIF-8 MOF powder, offering consistent quality materials for research laboratories, industrial applications, and advanced R&D sectors. The product is engineered with strict quality control to ensure excellent performance in adsorption, catalysis, gas separation, and drug delivery systems.
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Product | 2 Methylimidazole Zinc Salt Zinc MOF ZIF-8 | |
|---|---|---|
Stock No. | NW2001-04-404 | |
CAS | 59061-53-9 | Confirm |
Purity | 99.9 % | Confirm |
APS | 0.5-4 µm | Confirm |
Molecular Formula | C8H10N4Zn | Confirm |
Molecular Weight | 229.60 g/mol | Confirm |
Surface Area | Approx. 1500 m2/g | Confirm |
Pore Size | ~10Ã… | Confirm |
Form | Powder | Confirm |
Solubility in Water | Insoluble | Confirm |
Loss on Drying | < 2% | Confirm |
Activation | Can Be Activate On 100°C(Vacuum) | Confirm |
Storage | Store at Room Temperature | Confirm |
Appearance | White Color Powder | Confirm |
Density | 0.35 g/cm³ | Confirm |
Odor | Odorless Powder | Confirm |
Synonyms | ZIF-8; Basolite TM Z1200;Basolite (R) | Confirm |
Application | Used for separation (paraffin isomers, alkanes), sensors, and gas adsorption (hydrogen gas) | Confirm |
Main Inspect Verifier | QC In charge | Confirm |
Note: Product Specification are subject to amendment and may change over time.
NanowizTech ZIF-8 Metal Organic Framework (Methylimidazole Zinc Salt) Powder – High Purity, Advanced MOF Material | CAS No. 59061-53-9 | Formula C8H10N4Zn
Introduction to ZIF-8 Metal Organic Framework
NanowizTech ZIF-8 Metal Organic Framework (MOF), also known as Methylimidazole Zinc Salt Powder, is a highly advanced porous crystalline material widely used in modern nanotechnology, chemical engineering, and material science research. With the chemical formula C8H10N4Zn and CAS No. 59061-53-9, this MOF belongs to the zeolitic imidazolate framework (ZIF) family, which is known for exceptional thermal stability, tunable porosity, and high surface area.
NanowizTech is recognized as a trusted global manufacturer and supplier of high-purity ZIF-8 MOF powder, offering consistent quality materials for research laboratories, industrial applications, and advanced R&D sectors. The product is engineered with strict quality control to ensure excellent performance in adsorption, catalysis, gas separation, and drug delivery systems.
Chemical Identity and Basic Information
- Product Name: ZIF-8 Metal Organic Framework (Methylimidazole Zinc Salt)
- Chemical Formula: C8H10N4Zn
- CAS Number: 59061-53-9
- Material Type: Zeolitic Imidazolate Framework (MOF)
- Appearance: White to off-white crystalline powder
- Purity: High purity (research-grade / industrial-grade available)
- Structure Type: Porous crystalline coordination polymer
- Category: Advanced Nanomaterial / MOF Powder
Key Properties of ZIF-8 MOF Powder
NanowizTech ZIF-8 Metal Organic Framework exhibits exceptional physicochemical properties that make it suitable for advanced applications:
1. High Surface Area
ZIF-8 has an extremely high surface area, which enhances its adsorption capacity for gases, liquids, and organic molecules.
2. Thermal Stability
The material demonstrates excellent thermal resistance, maintaining structural integrity under elevated temperatures.
3. Chemical Stability
ZIF-8 is stable in water and many organic solvents, making it suitable for harsh chemical environments.
4. Uniform Porosity
Its pore size is highly uniform, allowing selective molecular adsorption and separation.
5. Crystalline Structure
The highly ordered crystalline framework ensures consistent performance in research and industrial processes.
6. Low Density
The porous structure results in low material density, beneficial for lightweight applications.
7. Tunable Functionality
Surface modifications can be performed to enhance catalytic or adsorption properties.
Applications of NanowizTech ZIF-8 Metal Organic Framework
ZIF-8 MOF powder is widely used across multiple industries due to its versatile properties. NanowizTech supplies high-quality ZIF-8 for the following applications:
1. Gas Storage and Gas Separation
ZIF-8 is widely used for:
- Carbon dioxide (COâ‚‚) capture
- Hydrogen storage
- Methane adsorption
- Selective gas separation in industrial processes
Its porous structure allows efficient gas trapping and controlled release.
2. Catalysis and Chemical Reactions
ZIF-8 acts as a catalytic support or active catalyst in:
- Organic synthesis reactions
- Photocatalysis
- Electrocatalysis
- Fine chemical production
The high surface area improves reaction efficiency and product yield.
3. Drug Delivery Systems
In biomedical research, ZIF-8 is used for:
- Controlled drug release
- Targeted drug delivery systems
- pH-responsive therapeutic delivery
Its biocompatible nature and degradability under acidic conditions make it suitable for medical applications.
4. Environmental Remediation
ZIF-8 is effective in:
- Water purification
- Heavy metal adsorption
- Organic pollutant removal
- Air filtration systems
It helps reduce environmental contamination through selective adsorption.
5. Sensors and Detection Systems
Due to its porous structure, ZIF-8 is used in:
- Gas sensors
- Chemical sensors
- Biosensors
- Environmental monitoring devices
It enhances sensitivity and detection accuracy.
6. Energy Storage Applications
ZIF-8 is applied in:
- Supercapacitors
- Lithium-ion batteries
- Fuel cells
- Energy conversion systems
It improves conductivity and energy efficiency when used as a composite material.
7. Nanotechnology and Advanced Research
ZIF-8 is widely studied in:
- Nanomaterial synthesis
- Polymer composites
- Functional coatings
- Advanced material engineering
It serves as a foundation for developing next-generation materials.
High Purity Standards and Quality Assurance
NanowizTech ensures that every batch of ZIF-8 Metal Organic Framework powder meets strict quality standards. The product is manufactured under controlled conditions to maintain:
- High chemical purity
- Stable crystalline structure
- Uniform particle size distribution
- Reproducible performance
- Low impurity levels
Each batch undergoes rigorous testing using advanced analytical techniques such as XRD, BET surface area analysis, and spectroscopy methods.
Competitive Pricing and Availability
NanowizTech offers ZIF-8 MOF powder at competitive and affordable pricing, making advanced nanomaterials accessible for research and industrial applications. Pricing depends on:
- Order quantity
- Purity level
- Application requirements
- Custom synthesis needs
Bulk supply options are available for industrial users and distributors.
Why Choose NanowizTech ZIF-8 MOF Powder?
NanowizTech stands out as a preferred supplier due to:
- High-quality production standards
- Reliable global distribution
- Advanced MOF synthesis expertise
- Consistent product performance
- Technical support for researchers
- Customizable material solutions
The company is committed to supporting innovation in nanotechnology and advanced material science.
Safety and Handling Information
ZIF-8 MOF powder should be handled in accordance with standard laboratory safety procedures:
- Use protective gloves and eyewear
- Avoid inhalation of fine particles
- Store in a dry, sealed container
- Keep away from strong acids unless required for processing
Proper handling ensures long-term stability and safety.
