Nanowiz Tech

Welcome to Nanowiz Tech, We’re here to help you   +91-8453906000 | +91-8647807000
Welcome to Nanowiz Tech, We’re here to help you 8453906000 | 8647807000

Dysprosium Metal Organic Framework Powder

Dy-MOF, C18H6Ni3O12, CAS No: 7429-91-6, High Purity, Global Shipping, Less Price.
NanowizTech Dysprosium MOF Metal Organic Framework Powder CAS 7429-91-6 Dy(pyda)₃Ca₁.₅(H₂O)₆·5.5H₂O high-purity rare earth MOF manufacturer and supplier.

NanowizTech Dysprosium MOF (CAS No.7429-91-6) Powder is a rare-earth-based Metal Organic Framework engineered with precisely controlled pore structures and high chemical stability. The combination of Dysprosium (Chemical Formula: Dy(pyda)₃Ca₁.₅(H₂O)₆·5.5H₂O) ions and carefully selected organic ligands creates an interconnected porous network that provides exceptional surface area and excellent adsorption characteristics. NanowizTech is a trusted manufacturer and global supplier of advanced nanomaterials and metal organic framework (MOF) materials, offering high-quality Dysprosium MOF Powder designed for research laboratories, universities, industrial R&D centers, and advanced technology applications. 

NanowizTech focuses on consistent quality, reliable batch-to-batch reproducibility, and strict quality control procedures to ensure that every shipment meets international research and industrial standards.

Product

Dysprosium MOF Powder

Stock No.

NW2001-04-412

CAS

7429-91-6

Confirm

Purity

99 %

Confirm

Molecular Formula

Dy(pyda)₃Ca₁.₅(H₂O)₆·5.5H₂O

Confirm

Molecular Weight

158.925 g/mol

Confirm

Pore Size

0.3-4nm

Confirm

Form

Powder

Confirm

Color

Off-White to Pale Yellow

Confirm

Metal Salt

Dysprosium salt based

Confirm

Surface Area

620-1031 m2/g (BET) (Customized as per Req)

Confirm

Solvent

Customized

Confirm

Main Inspect Verifier

QC In charge

Confirm

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

NanowizTech Dysprosium MOF (Metal Organic Framework) Powder:

NanowizTech Dysprosium MOF Powder is a rare-earth-based Metal Organic Framework engineered with precisely controlled pore structures and high chemical stability. The combination of Dysprosium ions and carefully selected organic ligands creates an interconnected porous network that provides exceptional surface area and excellent adsorption characteristics.

This advanced MOF material is designed to support a broad range of scientific investigations and industrial innovations. Researchers worldwide use Dysprosium MOFs in gas storage, gas purification, catalysis, sensing technologies, environmental remediation, and energy storage applications due to their highly tunable framework structures.

What is Dysprosium MOF?

Dysprosium Metal Organic Framework (Dy-MOF) is an advanced porous coordination material composed of dysprosium metal centers connected through organic ligands to form an extended three-dimensional crystalline network. Unlike conventional porous materials, MOFs provide extremely high internal surface areas while maintaining customizable pore sizes and chemical functionality.

The unique crystal architecture of Dysprosium MOF allows molecules to enter, interact, and be selectively adsorbed within the framework. This capability has attracted significant interest from scientists working in gas capture, molecular separation, catalysis, sensors, drug delivery research, and next-generation energy technologies.

The incorporation of dysprosium, a rare-earth element known for its magnetic and optical properties, can impart additional functional characteristics that make Dy-MOFs attractive for specialized research in luminescence, magnetism, and multifunctional materials.

Properties and Technical Specifications of NanowizTech Dysprosium MOF (Metal Organic Framework) Powder

Advanced Properties of Dysprosium MOF Powder

NanowizTech Dysprosium MOF (Metal Organic Framework) Powder is engineered to provide outstanding physical, chemical, and structural characteristics for advanced research and industrial innovation. The unique coordination between Dysprosium (Dy³⁺) metal ions and organic ligands forms a highly ordered porous crystalline framework that delivers exceptional functionality across numerous scientific disciplines.

Unlike conventional porous materials such as activated carbon, silica gels, or zeolites, Dysprosium MOFs offer significantly higher surface areas, tunable pore structures, adjustable chemical functionality, and remarkable versatility. These characteristics make them highly attractive for applications in gas storage, catalysis, environmental remediation, sensing technologies, energy storage, and nanotechnology.

NanowizTech follows stringent manufacturing and quality assurance protocols to ensure every production batch maintains consistent crystal morphology, purity, and performance.

Physical Properties

Understanding the physical properties of Dysprosium MOF Powder is essential for selecting the material for specific laboratory and industrial applications.

Appearance

The material is supplied as a fine crystalline powder with a uniform particle distribution. Depending on synthesis conditions and hydration state, the color may range from off-white to pale yellow.

Crystal Structure

Dysprosium MOFs possess a highly ordered crystalline framework in which dysprosium ions are coordinated with organic ligands, producing a stable three-dimensional porous network.

Surface Area

One of the defining characteristics of Metal Organic Frameworks is their exceptionally high internal surface area. The interconnected pore system provides abundant active sites for adsorption, molecular interactions, and catalytic processes.

Porosity

The material contains well-defined microporous channels that facilitate the diffusion of gases, solvents, and other molecules throughout the framework. Controlled porosity enables high adsorption capacity and selective molecular recognition.

Particle Morphology

NanowizTech carefully controls synthesis parameters to produce powders with consistent morphology, improving reproducibility in research experiments and industrial evaluations.

Chemical Properties

The chemical characteristics of Dysprosium MOF play an important role in determining its suitability for advanced material science applications.

High Chemical Purity

NanowizTech manufactures Dysprosium MOF using carefully selected raw materials and optimized synthesis techniques to minimize contamination and maximize product consistency.

High chemical purity contributes to:

  • Improved adsorption performance
  • Reliable catalytic activity
  • Consistent experimental results
  • Enhanced structural integrity
  • Better reproducibility between research studies
Coordination Framework

The metal-organic coordination bonds create a robust three-dimensional framework capable of maintaining structural integrity while accommodating guest molecules within its pores.

Rare Earth Functionality

Dysprosium belongs to the rare-earth element family and is recognized for its magnetic and optical characteristics. Incorporating dysprosium into Metal Organic Frameworks expands the material’s potential in advanced functional materials, luminescent systems, and magnetic research.

Moisture Sensitivity

Like many Metal Organic Framework materials, storage conditions can influence long-term stability. NanowizTech recommends storing the product in a tightly sealed container in a cool, dry environment to preserve its structural performance.

Applications of NanowizTech Dysprosium MOF (Metal Organic Framework) Powder:

Gas Storage Applications

One of the most significant applications of Dysprosium MOF Powder is gas storage. The interconnected porous network provides a large internal surface capable of accommodating gas molecules within its framework.

Researchers investigate Dysprosium MOFs for the storage of gases such as:

  • Hydrogen
  • Methane
  • Carbon dioxide
  • Nitrogen
  • Oxygen
  • Noble gases

Gas Separation and Purification

Selective gas separation is another important area where Metal Organic Framework materials demonstrate exceptional performance.

Dysprosium MOFs possess well-defined pore channels that can selectively adsorb certain gas molecules while allowing others to pass through. This property is valuable for research involving:

  • Carbon dioxide separation
  • Natural gas purification
  • Hydrogen purification
  • Industrial gas processing
  • Air separation studies

Why Choose NanowizTech Dysprosium MOF Powder?

NanowizTech is committed to delivering high-performance advanced materials that meet the evolving needs of researchers and industrial innovators. Our manufacturing processes emphasize quality, consistency, and technical excellence.

Key advantages include:

  • High-purity Dysprosium MOF produced using controlled synthesis techniques.
  • Excellent crystallinity for reproducible experimental results.
  • Stable porous framework suitable for advanced material research.
  • Reliable batch-to-batch consistency through strict quality control.
  • Custom particle sizes available upon request.
  • Secure packaging to maintain product integrity during transportation.
  • Competitive pricing for research institutions, universities, and industrial customers.
  • Technical documentation and product support.
  • Flexible order quantities from laboratory-scale research to larger procurement requirements.
  • Worldwide shipping with export-ready packaging.

You cannot copy content of this page

Email Us
LinkedIn
LinkedIn
Share
Instagram
contact us
close slider