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UiO-66 MOF Zirconium Based

UiO-66 Metal Organic Framework, Zr6C48H28O32, CAS 1072413-89-8, High Purity, Global Shipping
NanowizTech UiO-66 MOF Zirconium Based Zr6C48H28O32 CAS 1072413-89-8 manufacturer and supplier for gas storage catalysis adsorption research.

NanowizTech UiO-66 MOF Zirconium Based is a high-quality zirconium-based metal-organic framework (MOF) engineered for advanced research and industrial applications. 

With the molecular formula Zr6C48H28O32 and CAS No. 1072413-89-8, this porous crystalline material offers exceptional thermal stability, chemical resistance, and high surface area. It is widely used in gas adsorption, gas storage, catalysis, environmental remediation, drug delivery, and materials science research. NanowizTech is a trusted manufacturer and supplier of premium-quality UiO-66 MOF materials, ensuring consistent purity, reliable performance, and global supply for laboratories, universities, and industrial R&D organizations.

Manufactured with attention to quality and consistency, NanowizTech UiO-66 MOF is suitable for universities, research laboratories, R&D organizations, industrial development programs, and advanced materials research. It is produced with a focus on purity, reproducibility, and dependable performance for experimental and development work.

 

Product

UiO-66 MOF Zirconium Based

Stock No.

NW3205-08-118

CAS

1072413-89-8

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Purity

99 %

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Molecular Formula

Zr6C48H28O32

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Molecular Weight

1663.02 g/mol

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Pore Size

0.3-4nm

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Form

Powder

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Color

White Powder

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Metal Salt

Zr based

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Surface Area

1031 m2/g (BET)

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Solvent

Customized

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Main Inspect Verifier

QC In charge

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Note: Product Specification are subject to amendment and may change over time.

NanowizTech UiO-66 MOF Zirconium Based Powder | High Purity CAS 1072413-89-8 | Zr6C48H28O32 | Global Supplier

 NanowizTech offers UiO-66 MOF Zirconium Based Powder, a high-quality metal-organic framework (MOF) material designed for advanced scientific research and industrial innovation. UiO-66 is one of the most extensively studied zirconium-based MOFs because of its exceptional thermal stability, chemical durability, high surface area, and excellent porosity. These characteristics make it valuable for applications including gas storage, gas separation, catalysis, adsorption, environmental remediation, sensors, energy storage, and nanotechnology.

Manufactured with attention to quality and consistency, NanowizTech UiO-66 MOF is suitable for universities, research laboratories, R&D organizations, industrial development programs, and advanced materials research. It is produced with a focus on purity, reproducibility, and dependable performance for experimental and development work.

What is UiO-66 MOF?

UiO-66 is a zirconium-based metal-organic framework first developed at the University of Oslo, from which its name is derived (“UiO”). It consists of zirconium oxide clusters connected by terephthalate (benzene-1,4-dicarboxylate) organic linkers, forming a highly ordered three-dimensional porous crystal structure.

The framework is recognized for maintaining its structural integrity under demanding conditions, including elevated temperatures, moisture exposure, and a wide range of chemical environments. This stability has contributed to its widespread use in materials science research.

Unlike many conventional porous materials, UiO-66 combines high porosity with robust mechanical and chemical properties, making it suitable for numerous advanced applications.

Product Overview

Product Name: UiO-66 MOF Zirconium Based Powder

Brand: NanowizTech

Material Type: Metal Organic Framework (MOF)

CAS Number: 1072413-89-8

Molecular Formula: Zr₆C₄₈H₂₈O₃₂

Appearance: White to off-white crystalline powder

Purity: High purity (grade depends on product specification)

Structure: Microporous crystalline framework

Technology: Nanostructured porous material

Application Areas: Research laboratories, universities, advanced materials, adsorption studies, catalysis, environmental science, energy research.

Key Features of NanowizTech UiO-66 MOF Powder

NanowizTech UiO-66 MOF offers several important characteristics that make it attractive for advanced research:

High Purity

The material is produced with a focus on minimizing impurities, supporting consistent research performance and reproducibility.

High Surface Area

Its extensive internal pore network provides a large surface area, making it suitable for adsorption and catalytic studies.

Excellent Thermal Stability

UiO-66 maintains structural stability at elevated temperatures relative to many other porous materials, supporting use in demanding research environments.

Chemical Stability

The zirconium-based framework demonstrates good resistance to many chemical conditions, including exposure to water and a range of solvents.

Uniform Nanostructure

Controlled synthesis helps provide consistent particle characteristics that are important for scientific investigations.

High Mechanical Strength

The framework exhibits robust mechanical properties compared with many other MOFs, aiding handling and experimental use.

High Porosity

Its interconnected microporous architecture facilitates molecular transport and adsorption.

Research Compatibility

UiO-66 is widely investigated for gas storage, catalysis, adsorption, membranes, sensors, environmental technologies, and energy-related applications.

Why Choose NanowizTech?

NanowizTech focuses on supplying advanced nanomaterials and specialty research chemicals with an emphasis on quality, technical support, and dependable supply. Customers from academic institutions, research laboratories, and industrial R&D programs can benefit from:

  • High-quality research materials
  • Consistent manufacturing processes
  • Competitive pricing for research and bulk orders
  • Packaging suitable for laboratory and industrial requirements
  • Technical documentation where applicable
  • Global shipping support
  • Responsive customer assistance
  • Custom quantity availability
  • Bulk order capability
  • Reliable product consistency

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