Interesting facts
Interesting Facts about Trimethoxy(methyl)silane
Trimethoxy(methyl)silane, often abbreviated as TMMS, is a fascinating chemical compound that has garnered the attention of chemists and material scientists alike. Its unique structure and properties make it a valuable substance in various applications. Here are some key highlights:
- Silane Chemistry: TMMS is part of a class of compounds known as silanes, which consist of silicon atoms bonded to hydrogen, carbon, or other elements. The presence of the methoxy groups enhances its reactivity, making it useful in numerous chemical reactions.
- Versatile Applications: This compound is primarily utilized as a coupling agent and surface modifier, improving adhesion characteristics in coatings, sealants, and adhesives. It helps to create a stronger bond between organic and inorganic materials, enhancing product durability.
- Precursor to Silica: TMMS can be hydrolyzed to produce silica, a critical material in industries ranging from electronics to construction. This transformation is a vital process in the production of high-performance materials.
- Layer-by-Layer Assembly: Chemists often use TMMS in the layer-by-layer (LbL) assembly technique, where it aids in creating nanostructured films with tailored properties. This method has implications for sensors, drug delivery systems, and photonic devices.
- Environmental Considerations: Due to its relatively low toxicity in comparison to other silanes, TMMS is considered a more environmentally friendly option in industrial applications, highlighting the importance of selecting safer alternatives in chemical manufacturing.
As a versatile reagent, TMMS continues to play a significant role in advancing materials science and chemical engineering. Its ability to enhance material properties while being environmentally conscious makes it a compound worth exploring!
Synonyms
Methyltrimethoxysilane
1185-55-3
Trimethoxy(methyl)silane
Trimethoxymethylsilane
Silane, trimethoxymethyl-
Union carbide A-163
SILANE, METHYLTRIMETHOXY-
Silane A-163
Z 6070
EINECS 214-685-0
0HI0D71MCI
NSC 93883
25498-02-6
DTXSID3027370
GLASCA B
NSC-93883
SILQUEST A 1630
(TRIMETHOXYSILYL)METHANE
DTXCID407370
EC 214-685-0
METHYLSILICON TRIMETHOXIDE (MESI(OME)3)
DOW CORNING 7-5300 FILM-IN-PLACE COATING
DOW CORNING (R) 7-5310 FILM-IN-PLACE BASE
Silane A163
Union carbide A163
Silane, methyltrimethoxy
Silane, trimethoxymethyl
Dow Corning product Z6070
METHYLTRIMETHOXYSILANE [INCI]
214-685-0
696-021-3
MFCD00008342
Dynasylan MTMS
methyl trimethoxysilane
methyl-trimethoxysilane
CM9100
UNII-0HI0D71MCI
methyltrimetoxysilane
methyltrimethoxy silane
trimethoxy-methyl-silane
CH3Si(OCH3)3
Trimethoxymethylsilane, 95%
Trimethoxymethylsilane, 98%
Methyltrimethoxysilane (MTM)
SCHEMBL35033
CHEMBL3182654
BFXIKLCIZHOAAZ-UHFFFAOYSA-
NSC93883
WLN: 1O-SI-1&O1&O1
Tox21_200453
MFCD00081866
AKOS008901240
NCGC00248627-01
NCGC00258007-01
LS-13028
CAS-1185-55-3
DB-030050
M0660
NS00044808
E75871
EN300-218612
Trimethoxymethylsilane, purum, >=98.0% (GC)
Trimethoxymethylsilane, deposition grade, >=98%
A804054
Q21099559
InChI=1/C4H12O3Si/c1-5-8(4,6-2)7-3/h1-4H3
25498-03-7
Solubility of Trimethoxy(methyl)silane
Trimethoxy(methyl)silane, with the chemical formula C4H12O3Si, exhibits notable solubility characteristics that are important for its applications in various fields.
Solvent Compatibility
This compound is generally soluble in a variety of organic solvents, including:
Its solubility in these solvents makes it suitable for use in coatings, adhesives, and sealants as a silane coupling agent.
Hydrolysis Behavior
Upon exposure to moisture, trimethoxy(methyl)silane can hydrolyze to form trimethylsilanol, which further emphasizes its reactivity with water, leading to the formation of silanol groups:
In summary, while trimethoxy(methyl)silane is soluble in several organic solvents, it is crucial to consider its hydrolysis in humid environments, which can alter its performance and stability. Always ensure to evaluate the solvent choice to maximize effectiveness in your intended applications.