Buy Triethoxyvinylsilane (BT-286316)

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Triethoxyvinylsilane

Catalog Number: BT-286316

CAS Number: 78-08-0

Molecular Formula: C8H18O3Si

Molecular Weight: 190.31 g/mol

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Product Introduction

Description

Triethoxyvinylsilane is a colorless liquid that is widely used in various industries due to its unique chemical properties. It is a vinyl-functional silane that can be used as a coupling agent, crosslinking agent, and surface modifier.

Properties

CAS Number

78-08-0

Product Name

Triethoxyvinylsilane

IUPAC Name

ethenyl(triethoxy)silane

Molecular Formula

C8H18O3Si

Molecular Weight

190.31 g/mol

InChI

InChI=1S/C8H18O3Si/c1-5-9-12(8-4,10-6-2)11-7-3/h8H,4-7H2,1-3H3

InChI Key

FWDBOZPQNFPOLF-UHFFFAOYSA-N

SMILES

CCO[Si](C=C)(OCC)OCC

Solubility

Soluble in DMSO

Synonyms

Vinyltriethoxysilane; Triethoxyvinylsilane; Triethoxyvinylsilicane;

Canonical SMILES

CCO[Si](C=C)(OCC)OCC

Method of Synthesis or Extraction

Triethoxyvinylsilane can be synthesized by several methods, including the reaction of vinyl chloride with triethoxysilane, the reaction of vinyltriethoxysilane with hydrogen chloride, and the reaction of vinyltrichlorosilane with ethanol. The efficiency and yield of each method vary depending on the reaction conditions and the purity of the starting materials. The environmental and safety considerations of these methods should also be taken into account, as some of them involve the use of toxic or hazardous chemicals.

Chemical Structure and Biological Activity

The chemical structure of triethoxyvinylsilane consists of a vinyl group attached to a silicon atom, which is in turn bonded to three ethoxy groups. This structure gives triethoxyvinylsilane unique properties, such as the ability to form covalent bonds with organic and inorganic substrates. In terms of biological activity, triethoxyvinylsilane has been shown to have antimicrobial, antifungal, and antiviral properties. It can also modulate cell adhesion and migration, which makes it a potential candidate for tissue engineering and regenerative medicine.

Biological Effects

Triethoxyvinylsilane can affect cell function and signal transduction by modulating the expression of genes involved in cell adhesion, proliferation, and differentiation. It can also induce apoptosis in cancer cells and inhibit the growth of tumors. However, triethoxyvinylsilane can also have toxic effects on cells and tissues, especially at high concentrations. Therefore, its potential therapeutic and toxic effects should be carefully evaluated before its use in medical applications.

Applications

Triethoxyvinylsilane has a wide range of applications in different fields, including medical research, environmental research, and industrial research. In medical research, it can be used as a crosslinking agent in the development of biomaterials, such as hydrogels and scaffolds. It can also be used as a surface modifier in drug delivery systems to improve their stability and bioavailability. In environmental research, triethoxyvinylsilane can be used to modify the surface of nanoparticles to enhance their adsorption capacity for pollutants. It can also be used as a coating material to prevent corrosion and degradation of metal surfaces. In industrial research, triethoxyvinylsilane can be used as a coupling agent in the production of composites and adhesives. It can also be used to improve the quality and efficiency of manufacturing processes, such as polymerization and crosslinking.

Future Perspectives and Challenges

Despite its potential applications, the use of triethoxyvinylsilane is still limited by several factors, such as its high cost, low solubility, and limited stability. Therefore, future research should focus on developing more efficient and cost-effective methods for its synthesis and purification. Moreover, the safety and environmental impact of its use should be carefully evaluated to minimize any potential risks. Finally, the development of new applications and technologies that can harness the unique properties of triethoxyvinylsilane is essential for its continued use and growth in different fields.
Conclusion:
In conclusion, triethoxyvinylsilane is a versatile compound that has a wide range of applications in different fields. Its unique chemical structure and biological activity make it a potential candidate for various medical, environmental, and industrial applications. However, its use is still limited by several factors, and future research should focus on developing more efficient and cost-effective methods for its synthesis and purification, as well as evaluating its safety and environmental impact.

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