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Tin Metal Organic Framework (Sn, Purity: 99%, APS:30-40µm)

                                                Tin Metal-Organic Framework
Product No NRE-31108
CAS No. 7440-31-5
Formula Sn
APS <40µm (can be customized)
Molecular Weight 150.71 g/mol
Purity 99.9%
Density 6.95 g/cm³
Pore Size ~12.68 Å
Odor Odorless
SSA 30-40m2/g (BET)
Color Blue-black

Tin Metal-Organic Framework

Catalysis Tin is known for its ability to participate in redox reactions, and when incorporated into a MOF, Sn-MOFs exhibit catalytic activity. Sn-MOFs are useful in a variety of catalytic reactions, such as oxidation, hydrogenation, and C-C bond formation. The tin centers in these frameworks can act as Lewis acid sites, enabling them to catalyze reactions that require electron-deficient metal centers. For example, Sn-MOFs have been explored as catalysts for reactions such as alcohol oxidation, esterification, and carbon-carbon coupling. Their high surface area and tunable porosity allow them to be highly effective in catalytic processes, especially in green chemistry, where sustainable and efficient reactions are critical.

Energy Storage and Conversion Sn-MOFs have been investigated for their potential in energy storage and conversion technologies, such as batteries, supercapacitors, and fuel cells. The large surface area and tunable porosity of Sn-MOFs make them ideal candidates for use as electrode materials in energy storage systems. The tin ions in the framework can also facilitate the reversible storage and release of ions, enhancing the performance of energy storage devices. In addition, Sn-MOFs have shown promise in applications such as lithium-ion batteries, where they can improve energy density and cycling stability, as well as in supercapacitors, where their high surface area and fast charge/discharge capabilities can improve efficiency. Furthermore, Sn-based materials have been studied for hydrogen storage and fuel cell applications, where the material’s ability to store and release hydrogen can contribute to sustainable energy solutions.

Gas Storage and Separation Due to their high surface area and tunable porosity, Sn-MOFs are excellent candidates for gas storage and separation applications. These materials can adsorb and store gases such as carbon dioxide (CO₂), methane (CH₄), hydrogen (H₂), and nitrogen (N₂), making them useful in applications such as carbon capture, natural gas storage, and hydrogen storage. Sn-MOFs are also being explored for selective gas separation, where their ability to distinguish between gases based on molecular size and chemical interactions makes them useful in purifying gases or separating specific components from complex gas mixtures. In particular, Sn-MOFs may be utilized in processes like CO₂ capture, helping to reduce greenhouse gas emissions and mitigate climate change.

 

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