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Introduction of CAS:13107-13-6 | VINYLDIPHENYLMETHYLSILANE
Methyldiphenylvinylsilane (MDV) is an organosilicon compound that has been used in a variety of scientific research applications. MDV is a versatile organic compound that has been used in a variety of organic synthesis reactions, as well as in the production of polymers and other materials. MDV has also been used in biochemistry and physiology studies, due to its ability to interact with biological systems.
Specification of CAS:13107-13-6 | VINYLDIPHENYLMETHYLSILANE
|
ITEMS |
SPECIFICATION |
|
Flash point |
125°C (257°F) |
|
Boiling Point |
88°C |
|
proportion |
1.5705 |
|
Refractive index |
0.997 |
|
Molecular Weight |
224.37 |
Research Application of CAS:13107-13-6 | VINYLDIPHENYLMETHYLSILANE
Protective Coatings for Metals: Polysiloxanes, which can include methyldiphenylvinylsilane, are used for creating protective coatings on metals like Fe 430 B structural steel. These coatings are effective against corrosion, wear, and chemical attack, making them valuable for extending the lifespan of metal structures (Barletta, Gisario, Puopolo, & Vesco, 2015).
Food Packaging Applications: Methyldiphenyl diisocyanate (MDI), a derivative of methyldiphenylvinylsilane, improves the wettability and adhesion of poly(lactic acid)/chitosan coatings on PLA films. These coatings are suitable for bio-based multilayer films used in food packaging, offering enhanced physical properties and sustainability (Gartner, Li, & Almenar, 2015).
Optoelectronic Device Applications: Modifications in the aryl moiety of poly(methylphenylsilane), a relative of methyldiphenylvinylsilane, enable tailoring of properties crucial for optoelectronic devices. These include band gap energy levels and redox stability, essential for the interaction with semiconducting inorganic substrates (Cleij, King, & Jenneskens, 2000).
High-Performance Electronic Devices: Polysilanes, which can be derived from methyldiphenylvinylsilane, are researched for various optoelectronic applications. Chemical modifications of these polysilanes, such as attaching organic segments, can induce new properties and improve solubility, opening new possibilities in electronics (Săcărescu, Mangalagiu, Simionescu, Săcărescu, & Ardeleanu, 2008).
Energy Transfer Applications in Electroluminescence: Efficient energy transfer between various polysilanes, including derivatives of methyldiphenylvinylsilane, can be utilized in electroluminescence. This includes the potential for creating white electroluminescence by mixing different dye molecules (Kamata, Terunuma, Ishii, Satoh, Aihara, Yaoita, & Tonsyo, 2003).
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