Dichloromethylphenylsilane is a chemical compound commonly used in industries such as pharmaceuticals, polymers, and electronics. Due to its ability to facilitate important chemical reactions, this compound plays a significant role in the production of various everyday items. For example, it is utilized in the manufacturing of smartphones, medical devices, and certain medications. Its versatile applications make it a crucial component in modern technology and healthcare, impacting our daily lives in numerous ways.
Table of Contents:
- 💡 Commercial Applications
- ⚗️ Chemical & Physical Properties
- 🏭 Production & Procurement
- ⚠️ Safety Considerations
- 🔬 Potential Research Directions
- 🧪 Related Compounds
💡 Commercial Applications
Dichloromethylphenylsilane, commonly known as DCMPS, is a versatile chemical compound used in a variety of commercial and industrial applications. One of the primary uses of DCMPS is as a coupling agent in the production of silicone polymers. It is also employed as a reagent in organic synthesis, particularly in the formation of carbon-silicon bonds.
In the pharmaceutical industry, Dichloromethylphenylsilane plays a crucial role in the synthesis of various drugs and medications. It is utilized as a key building block in the production of silane-modified pharmaceuticals, which have enhanced stability and bioavailability. Additionally, DCMPS is utilized as a reagent in the development of novel drug compounds with potential therapeutic applications. Its ability to form unique chemical bonds makes it a valuable tool in drug discovery research.
Overall, Dichloromethylphenylsilane is a versatile compound with a wide range of commercial, industrial, and pharmaceutical applications. Its unique chemical properties make it a valuable component in the production of silicone polymers, as well as in drug synthesis and development. As research in the fields of materials science and pharmaceuticals continues to advance, the demand for DCMPS is expected to grow.
⚗️ Chemical & Physical Properties
Dichloromethylphenylsilane is a colorless to pale yellow liquid with a pungent odor. It is commonly used in organic synthesis and as a reagent in chemical reactions.
The molar mass of Dichloromethylphenylsilane is approximately 203.09 g/mol, and its density is around 1.200 g/cm³. In comparison, common food items such as sugar and salt have lower molar masses and densities.
Dichloromethylphenylsilane has a melting point of -14°C and a boiling point of 225°C. These values are higher than those of many common food items like butter and chocolate, which melt at lower temperatures and boil at lower temperatures.
Dichloromethylphenylsilane is insoluble in water and has a low viscosity. This contrasts with common food items like water and vegetable oil, which are soluble in water and have higher viscosities.
🏭 Production & Procurement
Dichloromethylphenylsilane is primarily produced through the reaction of phenylmagnesium dichloride and chloromethyldichlorosilane. This reaction typically takes place under inert gas conditions and at low temperatures to ensure the formation of high yields of Dichloromethylphenylsilane.
Dichloromethylphenylsilane can be procured from chemical suppliers that specialize in the production and distribution of organosilanes. These suppliers typically offer Dichloromethylphenylsilane in various purities and quantities to suit the needs of different industries. The compound can be transported in sealed containers that are resistant to the corrosive nature of organosilanes.
When procuring Dichloromethylphenylsilane, it is important to adhere to safety guidelines for handling and storing organosilanes. Proper ventilation and protective equipment should be used to minimize the risk of exposure to the compound. Additionally, it is advisable to consult with professionals experienced in the handling of organosilanes to ensure safe transportation and storage practices are followed.
⚠️ Safety Considerations
Safety considerations for Dichloromethylphenylsilane must be taken seriously due to its hazardous nature. This compound is highly flammable and can react violently with water, releasing toxic fumes. It is also corrosive to skin and eyes, causing irritation and burns upon contact. Proper ventilation and personal protective equipment, such as gloves and goggles, should be used when handling Dichloromethylphenylsilane to minimize the risk of exposure and injury.
Hazard statements for Dichloromethylphenylsilane include “Highly flammable liquid and vapor,” “Causes severe skin burns and eye damage,” “May cause respiratory irritation,” and “Harmful if swallowed.” These statements highlight the various ways in which this compound can pose a threat to human health and safety. It is important to handle Dichloromethylphenylsilane with caution and adhere to safety protocols to prevent accidents and injuries.
Precautionary statements for Dichloromethylphenylsilane include “Keep away from heat/sparks/open flames/hot surfaces,” “Wear protective gloves/eye protection/face protection,” “IF SWALLOWED: Rinse mouth. Do NOT induce vomiting,” and “Store in a well-ventilated place. Keep cool.” These statements outline the necessary precautions that should be taken when working with Dichloromethylphenylsilane to protect against the potential dangers associated with this compound. Adhering to these statements can help minimize the risks and ensure the safe handling of Dichloromethylphenylsilane.
🔬 Potential Research Directions
One potential research direction for Dichloromethylphenylsilane is in exploring its applications as a precursor for the synthesis of organosilicon compounds with unique chemical and physical properties. This could involve investigating its reactivity with various nucleophiles or electrophiles to create novel silicon-containing molecules.
Another area of interest for research on Dichloromethylphenylsilane is its potential use in materials science, particularly in the development of silicon-based polymers or coatings. By studying the polymerization behavior of this compound and its compatibility with other monomers, researchers could uncover new ways to design advanced materials with tailored properties.
Furthermore, investigations into the reactivity of Dichloromethylphenylsilane with different catalysts or reaction conditions could lead to the discovery of more efficient and selective synthetic routes. This could open up new avenues for the production of valuable intermediates or fine chemicals, ultimately enhancing the utility of this compound in organic synthesis.
🧪 Related Compounds
One similar compound to Dichloromethylphenylsilane based on molecular structure is Dimethylphenylsilane. This compound contains two methyl groups attached to the silicon atom, instead of the chlorine atoms found in Dichloromethylphenylsilane. The phenyl group remains the same in both compounds.
Another similar compound to Dichloromethylphenylsilane is Chloromethylphenylsilane. In this compound, there is only one chlorine atom attached to the silicon atom, rather than two as in Dichloromethylphenylsilane. The phenyl group is still present in the molecule.
Trimethylsilylchloride is yet another compound with a molecular structure similar to Dichloromethylphenylsilane. In this compound, there are three methyl groups attached to the silicon atom, along with a chlorine atom. The phenyl group is absent in Trimethylsilylchloride, distinguishing it from Dichloromethylphenylsilane.
