Product Details
Hebei Feilaimi Technology Co., Ltd supply Industrial Grade Methyltrimethoxysilane 1185-55-3 In Stock.
1185-55-3 Name |
|
Name |
Methyltrimethoxysilane |
Synonym |
methyltrimethoxy-silan;Methyl-trithoxysilicane;Silane, methyltrimethoxy-;silanea-163;trimethoxymethyl-silan;Union carbide a-163;unioncarbidea-163;Z 6070 |
1185-55-3 Chemical & Physical Properties |
|
Melting point |
<-70ºC |
Boiling point |
102.5±0.0 °C at 760 mmHg |
Density |
0.9±0.1 g/cm3 |
Molecular Formula |
C4H12O3Si |
Molecular Weight |
136.222 |
Flash Point |
11.1±0.0 °C |
PSA |
27.69000 |
LogP |
0.14 |
Exact Mass |
136.055573 |
Vapour Pressure |
38.8±0.1 mmHg at 25°C |
Index of Refraction |
1.379 |
Storage condition |
2-8°C |
Stability |
Stable, but moisture sensitive. Highly flammable. Incompatible with water, strong acids, strong oxidizing agents. |
Water Solubility |
decomposes |
Methyltrimethoxysilane is a chemical compound that has been studied in various scholarly articles for its potential applications. One of its primary uses is as a precursor in the production of silicon-based materials, such as silica nanoparticles, silica aerogels, and silicones. It can be used as a starting material for the synthesis of various compounds, including silanes, siloxanes, and silicates. Additionally, Methyltrimethoxysilane has been investigated for its potential applications in the fields of microelectronics and nanotechnology. It has been found to have high reactivity and good adhesion properties, making it a useful material for the fabrication of thin films and coatings. However, it is important to note that Methyltrimethoxysilane is a flammable and volatile compound, and should be handled with care. Overall, Methyltrimethoxysilane is a versatile compound with a wide range of potential applications in various fields.
Flammability and Explosibility
Flammable
InChI:InChI=1/C4H12O3Si/c1-5-4(8,6-2)7-3/h1-3,8H3
Siloxane oligomers composed of RSiO3 and R2SiO2 units were synthesized more efficiently than those composed of SiO4 units, suggesting that the steric hindrance around the TMS groups of the oligosiloxanes makes a difference in the degree of substitution. This reaction uses TMS groups as both protecting and leaving groups for SiOH/SiO? groups.
Solvents are shown to influence the reaction rate: the rate constant increases with increasing ε parameter of the solvent. The rate constant of etherification of chlorosilanes with ethanol falls in the series: ClCH2SiCl3 > VinSiCl3 > PrSiCl3. An explanation of the regularities is suggested.
A subsequent iridium-catalyzed reduction to γ-chiral amines can be performed in the same flask without purification of the intermediate amides.
The superhydrophobic aerogels are thermally stable up to a temperature of 530 K, above which they become hydrophilic. The aerogels have been characterized by bulk density, percentage volume shrinkage, and porosity measurements.
In the reaction process through the control of the temperature, pressure and feed rate, the obtained alkoxy silane in the HCl content of 10 ppm following, purity 99.0% wt or more. (by machine translation)
Methyltrichlorosilane
Methyltrimethoxysilan
1,3-dimethyltetramethoxydisiloxane
1,1,3,5,5-pentamethoxy-1,3,5-trimethyl-trisiloxane
1,1,3,5,7,7-hexamethoxy-1,3,5,7-tetramethyl-tetrasiloxane
Conditions | Yield |
---|---|
With CH3OH;
|
9.6% 5.6% |
With CH3OH;
|
9.6% 5.6% |
tetramethylorthosilicate
Trimethylmethoxysilane
dimethyldimethoxysilan
Methyltrimethoxysilan
Conditions | Yield |
---|---|
With sodium; at 250 ℃; for 20h; Inert atmosphere; Schlenk technique;
|
methanol
Methyltrichlorosilane
sodium methylate
1,1,2,2-tetramethoxy-1,2-dimethyl-disilane
Butyl-dimethoxy-methyl-silan
methyl-cyclohexyl-dimethoxysilane
Propyl-methyl-dimethoxy-silan
dimethoxy(methyl)phenylsilane
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