Zinc MOF (Zn-BDC-MOFs)
(Zinc, Purity: 99%, APS: 30-40µm)
Zn-BDC Zinc MOF (Metal Organic Frameworks) is a premium zinc-based porous coordination material with molecular formula C8H10O4Zn and CAS No. 59061-53-9. Manufactured and supplied for research and industrial innovation, this high-quality metal-organic framework offers excellent crystallinity, high surface area, and reliable chemical stability.Â
Zn-BDC Zinc MOF is widely used in gas adsorption, catalysis, molecular separation, sensing, environmental research, nanotechnology, and advanced materials science. Produced under stringent quality control standards, it delivers consistent performance and dependable results for laboratories, universities, and R&D organizations. Technical documentation and quality assurance support are available to meet research requirements. Choose our Zn-BDC Zinc MOF for reliable supply, superior quality, competitive pricing, and dependable customer service for scientific and industrial applications.
Product | Zinc MOF | |
|---|---|---|
Stock No. | NW2001-04-402 | |
CAS | 59061-53-9 | Confirm |
Purity | 99% | Confirm |
APS | 30-40µm | Confirm |
Molecular Formula | C8H10O4Zn | Confirm |
Molecular Weight | 227.585 g/mol | Confirm |
Pore Size | ~12.68Ã… | Confirm |
Density | 0.35 g/cm³ | Confirm |
Odor | Odorless | Confirm |
Crystallographic Structure | Tetrahedron | Confirm |
Color | White | Confirm |
SSA | ~1864 m²/g (BET) | Confirm |
Linker | TPA, H2BDC, BDC, BTC | Confirm |
Application | Gas adsorption/storage | Confirm |
Solubility | Methanol | Confirm |
Main Inspect Verifier | QC- In charge | Confirm |
Note: Product Specification are subject to amendment and may change over time.
Zn-BDC Zinc MOF (Metal Organic Frameworks) Manufacturer and Supplier | High Purity | CAS 59061-53-9 | Formula C8H10O4Zn:
Zn-BDC Zinc MOF (Metal Organic Frameworks):
Zn-BDC Zinc MOF (Metal Organic Framework) is a zinc-based porous coordination material extensively used in advanced scientific research and material science. Built from zinc ions and benzene-1,4-dicarboxylate (BDC) organic linkers, this metal-organic framework exhibits a highly ordered crystalline structure with exceptional porosity, high surface area, and excellent thermal and chemical stability.
NanowizTech manufactures and supplies high-quality Zn-BDC Zinc MOF for universities, research laboratories, pharmaceutical companies, nanotechnology institutes, and industrial R&D organizations. Every batch is produced under controlled manufacturing conditions to help ensure consistency, purity, and reliable performance for research applications.
Zn-BDC MOF has become an important material in the field of porous materials because of its tunable framework, adsorption capacity, and versatility across numerous scientific disciplines. Researchers continue to investigate this material for gas storage, molecular separation, catalysis, environmental remediation, sensing technologies, and energy-related applications.
Product Specifications
Product Name: Zn-BDC Zinc MOF (Metal Organic Framework)
Chemical Formula: C8H10O4Zn
CAS Number: 59061-53-9
Product Category: Metal Organic Framework (MOF)
Metal Center: Zinc (Zn)
Organic Linker: Benzene-1,4-dicarboxylate (BDC)
Appearance: White to off-white crystalline powder
Purity: High Purity (grade may vary according to customer specifications)
Application Areas: Materials Science, Catalysis Research, Gas Adsorption, Separation Science, Nanotechnology, Environmental Research, Sensor Development
What is Zn-BDC Zinc MOF?
Zn-BDC is a member of the Metal Organic Framework (MOF) family, which consists of metal ions connected by organic ligands to create highly porous crystalline networks.
Unlike conventional porous materials, MOFs possess exceptionally large internal surface areas and customizable pore structures. Zn-BDC combines zinc ions with benzene dicarboxylate ligands, resulting in a stable framework that has attracted significant attention in academic and industrial research.
Its ordered pore architecture allows molecules to enter, diffuse, and interact with active sites, making Zn-BDC valuable for adsorption, storage, catalysis, and selective separation studies.
Key Features of Zn-BDC Zinc MOF
NanowizTech supplies Zn-BDC MOF with features suitable for advanced research requirements:
- High purity material
- Excellent crystalline structure
- High internal surface area
- Uniform pore distribution
- Good thermal stability
- Reliable chemical stability under appropriate conditions
- Consistent batch quality
- Suitable for laboratory and research applications
- Available in different quantities
- Quality documentation available upon request
These characteristics make Zn-BDC an excellent research material for scientists working in nanotechnology, chemistry, environmental science, and advanced materials engineering.
Physical and Chemical Properties
Zn-BDC Metal Organic Framework demonstrates several properties that make it valuable in scientific investigations.
High Surface Area
Its porous network provides a large internal surface area, enabling efficient adsorption of gases and molecules.
Porous Structure
The interconnected pores facilitate molecular transport and selective adsorption, making Zn-BDC suitable for separation and storage research.
Crystalline Framework
A well-defined crystalline structure contributes to reproducible experimental results and structural characterization.
Thermal Stability
Under appropriate operating conditions, Zn-BDC maintains structural integrity during many laboratory procedures.
Chemical Stability
The framework is designed to retain its structural characteristics under suitable experimental environments, although stability depends on solvent systems, temperature, and other operating conditions.
Tunable Properties
Researchers can modify synthesis conditions or combine Zn-BDC with other materials to explore new functional properties for specialized applications.
Advantages of Zn-BDC Zinc MOF
Researchers select Zn-BDC Metal Organic Framework because it offers several practical advantages.
Its porous architecture allows efficient adsorption of molecules, while the zinc-based framework provides an excellent platform for studying catalytic reactions and adsorption behavior.
The material supports investigations involving:
- Gas adsorption
- Selective molecular separation
- Environmental cleanup research
- Catalytic reaction studies
- Sensor fabrication
- Nanocomposite development
- Advanced functional materials
- Energy storage research
- Academic research projects
Applications of Zn-BDC Zinc MOF
1. Gas Adsorption Research
Zn-BDC Metal Organic Framework is widely investigated for adsorption of gases because its porous structure can accommodate significant amounts of guest molecules. Researchers study adsorption behavior to improve storage efficiency and understand molecular interactions.
2. Catalysis Research
The large surface area and accessible pore system make Zn-BDC an attractive material for heterogeneous catalysis research. Scientists evaluate its role as a catalyst support or as part of composite catalytic systems.
3. Separation Science
Zn-BDC is used in studies involving selective separation of molecules based on differences in size, polarity, or adsorption affinity. Such research supports advancements in purification technologies.
4. Environmental Research
Researchers explore Zn-BDC for adsorption of pollutants, dyes, and other contaminants from water and air in laboratory-scale environmental studies.
5. Nanotechnology
Zn-BDC serves as a building block for advanced nanomaterials and hybrid structures. Its controllable framework enables the design of innovative materials with tailored properties.
6. Sensor Development
Scientists investigate Zn-BDC in sensing applications because interactions between analytes and the porous framework may enable selective detection of chemical species.
Why High Purity Matters
High-purity Zn-BDC Metal Organic Framework helps researchers achieve reliable, reproducible experimental results by reducing interference from impurities. Consistent material quality is especially important in adsorption studies, catalysis research, structural characterization, and analytical investigations.
NanowizTech emphasizes quality-focused manufacturing practices and documentation to support research laboratories and industrial R&D organizations requiring dependable materials.
Quality Manufacturing
The production of Zn-BDC Metal Organic Framework involves carefully controlled synthesis parameters, including precursor quality, reaction conditions, purification, drying, and characterization. Maintaining consistency across production batches helps ensure that researchers receive material suitable for demanding laboratory applications.
Each production stage is designed to support product quality, reproducibility, and customer satisfaction.
Why Choose NanoWizTech Zn-BDC Zinc MOF
Our Zn-BDC Zinc MOF is manufactured using carefully controlled production processes to ensure high purity, consistent crystallinity, and reliable performance for research applications. Each batch undergoes quality evaluation to help meet the requirements of universities, research laboratories, industrial R&D centers, and material science organizations. We offer flexible packaging options, competitive pricing based on order quantity, technical documentation, responsive customer support, and worldwide shipping to serve customers across various research sectors.
