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Hexabutyldistannane, with the CAS No.: 813-19-4, is a compound that has garnered attention in the field of chemical research and industrial applications. In this blog post, as a high quality fine chemical products manufacturing factory, SACH will share the physical and chemical properties of compound Hexabutyldistannane for sale.

Properties of CAS No.: 813-19-4 Hexabutyldistannane

Density

The density of Hexabutyldistannane is 1.148 g/mL at 25 °C. This value is of great significance in determining the behavior of the compound in various physical processes. For instance, when it comes to mixing with other substances, its density will influence the distribution and interaction within the mixture. In industrial production, accurate knowledge of density is crucial for the design of storage and transportation systems, ensuring that the compound can be handled safely and efficiently.

Boiling Point

The boiling point of Hexabutyldistannane is 471.8±28.0 °C at 760 mmHg. This relatively high boiling point indicates that the compound remains in a liquid state under normal atmospheric conditions. This property is advantageous in certain chemical reactions where a liquid medium is required to facilitate the interaction between reactants. However, it also implies that special heating equipment may be needed to vaporize the compound for specific applications, such as in the case of vapor deposition processes.

Molecular Formula and Weight

The molecular formula of Hexabutyldistannane is C24H54Sn2, and its molecular weight is 580.106. The molecular structure, characterized by the presence of tin atoms bonded to butyl groups, endows the compound with unique chemical properties. The tin atoms, being a key part of the molecule, can participate in various chemical reactions, such as acting as a reducing agent or forming coordination compounds. The relatively large molecular weight suggests that the compound may exhibit certain steric effects, which could influence its reactivity and the spatial arrangement of molecules during reactions.

Flash Point

The flash point of Hexabutyldistannane is 240.1±11.1 °C. This parameter is of utmost importance in terms of safety considerations. The high flash point means that the compound is less likely to ignite under normal conditions, which reduces the risk of fire hazards during storage and handling. However, it is still essential to take appropriate safety measures, such as avoiding contact with open flames and ensuring proper ventilation in the storage area, to prevent any potential accidents.

Appearance and Storage

Hexabutyldistannane is a colorless liquid. Its appearance can be an indicator of its purity and quality. In terms of storage, it is recommended to keep the compound in a dry inert gas environment, with the container sealed. This is to prevent the compound from coming into contact with moisture, air, and strong oxidants, which could lead to degradation or unwanted reactions. Additionally, storing it in a cool and dry place helps to maintain its stability and prolong its shelf life.

Stability

Hexabutyldistannane is stable at room temperature and pressure. This stability is crucial for its practical applications, as it ensures that the compound can be stored and transported without significant changes in its properties. However, it is important to note that it should be kept away from strong oxidants, air, and water to avoid any potential instability. This stability also means that the compound can be used in a wide range of chemical processes without the need for excessive precautions to maintain its integrity.

Purity

The purity of Hexabutyldistannane is 98%. High purity is essential for its effective use in chemical reactions, as impurities can interfere with the reaction process and lead to unwanted by-products. In industrial production, achieving and maintaining high purity is a key challenge. The 98% purity level indicates that the compound is of high quality and can be used reliably in various applications. However, efforts should still be made to further improve the purity if possible, as even small amounts of impurities can have significant effects in certain sensitive reactions.

Application of Compound Hexabutyldistannane

Hexabutyldistannane is used as a reagent for the methanation of aryl halides with tin. This application highlights its role in organic synthesis, where it can facilitate the conversion of aryl halides to the corresponding methane derivatives. This reaction is of great importance in the production of various organic compounds, which have a wide range of applications in fields such as pharmaceuticals, agrochemicals, and materials science. The ability of Hexabutyldistannane to act as a reagent in this specific reaction is due to its unique chemical properties, such as the presence of tin atoms that can participate in the reduction process.

In conclusion, Hexabutyldistannane, with its unique physical and chemical properties, is a valuable compound in the field of chemistry. Its density, boiling point, molecular structure, flash point, appearance, stability, application, and purity all contribute to its suitability for various industrial and research purposes. Understanding these properties in detail is essential for the safe and effective use of Hexabutyldistannane, and further research and development in this area will undoubtedly lead to new and exciting applications for this compound.

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