Tin Metal Organic Framework Powder (Sn-MOF)
Sn-MOF-76, CAS No: 7440-31-5, Formula: Sn₆O₄(OH)₄(BTC)₂, High Purity, Global Shipping, Less Price.
NanowizTech Tin Metal Organic Framework (Sn-MOF) is an advanced porous coordination material designed for scientific research and industrial applications. With the chemical formula Sn₆O₄(OH)₄(BTC)₂ and CAS No. 7440-31-5, this tin-based MOF combines metal clusters with organic linkers to provide unique structural properties.
As a trusted Sn-MOF manufacturer and supplier, NanowizTech provides high-quality metal organic framework materials suitable for applications including catalysis, gas adsorption, separation technologies, sensing, energy-related research, and nanomaterial development. Our Sn-MOF products are produced with a focus on consistency, purity, and reliable supply for laboratories, universities, and industrial R&D teams. Explore high-purity Sn-MOF materials for research, catalysis, adsorption, energy storage, and advanced applications.
Product | Tin MOF-Sn Powder | |
|---|---|---|
Stock No. | NW2001-04-414 | |
CAS | 7440-31-5 | Confirm |
Purity | 99.9 % | Confirm |
Molecular Formula | Sn₆O₄(OH)₄(BTC)₂ | Confirm |
Molecular Weight | 150.71 g/mol | Confirm |
Pore Size | 1-3nm | Confirm |
Form | Powder | Confirm |
Color | White, off-white, pale yellow, or light beige powder | Confirm |
Metal Salt | Tin salt based | Confirm |
Surface Area | 1300-1500 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 Tin Metal Organic Framework (Sn-MOF) Powder Manufacturer & Supplier | High Purity Sn₆O₄(OH)₄(BTC)₂ Material:
NanowizTech specializes in the manufacturing and global supply of advanced nanomaterials and metal organic framework (MOF) products, including high-quality Tin Metal Organic Framework (Sn-MOF) powder. Designed for research institutions, universities, laboratories, and industrial R&D applications, NanowizTech Sn-MOF provides a reliable solution for customers seeking high-purity porous materials with consistent quality and competitive pricing.
Tin Metal Organic Framework, commonly known as Sn-MOF, is an advanced coordination material composed of tin-based metal nodes and organic linkers. The material represented by the formula Sn₆O₄(OH)₄(BTC)₂ is recognized for its unique porous architecture, structural stability, and functional surface properties. With growing demand for innovative materials in energy storage, catalysis, adsorption, sensing, and environmental technologies, Sn-MOF has become an important material for next-generation scientific development.
NanowizTech provides Sn-MOF powder with a focus on purity, performance consistency, scalable supply capability, and worldwide delivery services. Our materials are developed to support customers requiring dependable metal organic framework products for laboratory research and commercial applications.
Product Information: Tin Metal Organic Framework (Sn-MOF)
Product Name: Tin Metal Organic Framework Powder
Material Type: Sn-MOF (Tin-based Metal Organic Framework)
Chemical Formula: Sn₆O₄(OH)₄(BTC)₂
CAS Number: 7440-31-5*
Appearance: Fine powder
Category: Metal Organic Framework Materials / Porous Coordination Materials
Supplier: NanowizTech
*Note: CAS numbers should always be verified according to the exact product specification and regulatory documentation before commercial publication.
Properties of Tin Metal Organic Framework (Sn-MOF)
Tin Metal Organic Framework materials possess several important characteristics that make them valuable for modern material science applications:
1. Porous Structure
Sn-MOF contains a developed porous framework that can provide a large surface area. This characteristic makes it useful for adsorption-related applications, molecular interactions, and surface-based processes.
2. Metal-Organic Coordination Network
The combination of tin-based metal centers with organic ligands creates a stable coordination structure. This framework design enables researchers to explore Sn-MOF materials for catalytic, sensing, and storage technologies.
3. Functional Surface Chemistry
The presence of organic linkers and metal sites provides opportunities for surface modification and interaction with different molecules, making Sn-MOF suitable for customized research applications.
4. Advanced Material Stability
Sn-MOF materials are investigated for their structural and chemical stability, supporting their use in challenging environments where conventional materials may have limitations.
5. Research Versatility
Due to its unique structure, Tin Metal Organic Framework powder is studied across multiple scientific fields, including nanotechnology, chemistry, environmental engineering, and energy materials.
Applications of Tin Metal Organic Framework (Sn-MOF)
Energy Storage Research
Sn-MOF materials are explored as promising components in energy-related research, including battery materials, electrode development, and advanced energy storage systems. Their porous structure and tin-based composition make them attractive candidates for improving material performance in next-generation technologies.
Researchers investigate Sn-MOF-derived materials for applications in lithium-ion batteries, sodium-ion batteries, supercapacitors, and other energy storage platforms.
Catalysis Applications
Metal organic frameworks are widely studied as catalysts and catalyst supports because of their adjustable structures and active metal sites.
Tin-based MOF materials can be investigated for catalytic processes, chemical transformations, and sustainable chemistry applications where controlled surface activity is required.
Gas Adsorption and Separation
The porous nature of Sn-MOF makes it valuable for gas adsorption and separation research. Scientists study MOF materials for capturing, storing, and selectively separating different gas molecules.
Potential research areas include:
- Gas storage technologies
- Environmental purification
- Carbon-related capture studies
- Molecular separation systems
Sensors and Detection Technologies
Researchers explore metal organic frameworks for sensor development because of their ability to interact with target molecules. Sn-MOF materials may be investigated for chemical sensing, gas detection, and analytical applications.
Why Choose NanowizTech Sn-MOF Powder?
High Purity Tin Metal Organic Framework Material
NanowizTech Sn-MOF powder is manufactured with strict quality considerations to achieve high material purity and dependable performance. High-purity MOF materials are essential for research applications where structural properties, surface interactions, and reproducibility are critical factors.
Our Sn-MOF material is suitable for scientists and engineers who require advanced porous materials for experimental studies, prototype development, and industrial research.
