Interesting facts
Interesting Facts about 4-Triethoxysilylbutanenitrile
4-Triethoxysilylbutanenitrile is a fascinating compound that belongs to the family of organosilicon compounds, which are known for their unique properties and versatile applications. Here are some engaging insights into this chemical:
- Silane Chemistry: This compound features a silane group, which plays a pivotal role in enhancing the adhesion and compatibility of materials. Silanes are often used to modify surfaces to improve bonding with polymers, making them essential in various industrial applications.
- Functional Versatility: The presence of the butanenitrile group adds functional diversity, allowing it to participate in various chemical reactions. This compound can act as a building block for synthesizing more complex molecules, which is highly valuable in drug discovery and materials science.
- Surface Modification: 4-Triethoxysilylbutanenitrile is particularly useful in modifying surfaces to impart hydrophobic or hydrophilic properties. This ability is crucial in applications such as coatings, where controlling wetting behavior is necessary.
- Industrial Applications: With its unique silicon-oxygen bonds, this compound can be used in the formulation of sealants and adhesives. Its chemical stability and resistance to moisture make it an outstanding choice for the construction and automotive industries.
- Research Potential: As a subject of ongoing research, compounds like 4-triethoxysilylbutanenitrile are explored for their roles in nanotechnology and biomedical fields. Their potential in developing new materials for drug delivery and diagnostics is an exciting area of study.
In summary, 4-triethoxysilylbutanenitrile exemplifies the combination of organic and inorganic chemistry, showcasing how such compounds can lead to innovative solutions in both industrial and scientific domains. Its ability to bridge two worlds creates a myriad of opportunities for research and application.
Synonyms
3-Cyanopropyltriethoxysilane
4-(Triethoxysilyl)butanenitrile
Butanenitrile, 4-(triethoxysilyl)-
4-(Triethoxysilyl)butyronitrile
Butyronitrile, 4-(triethoxysilyl)-
Triethoxy-3-kyanpropylsilan
Silane, triethoxy(3-cyanopropyl)-
(3-Cyanopropyl) triethoxysilane
BRN 1942237
EINECS 213-931-4
Triethoxy-3-kyanpropylsilan [Czech]
UNII-N78W6A24DX
N78W6A24DX
SILANE, (3-CYANOPROPYL)TRIETHOXY-
3-cyanopropyl triethoxysilane
DTXSID6061440
1-CYANO-3-TRIETHOXYSILYLPROPANE
.GAMMA.-CYANOPROPYLTRIETHOXYSILANE
gamma-cyanopropyltriethoxysilane
DTXCID8033019
vgiurmcntdvgjm-uhfffaoysa-n
1067-47-6
4-triethoxysilylbutanenitrile
(3-cyanopropyl)triethoxysilane
MFCD00042636
SCHEMBL166002
3-Cyanopropyltriethoxysilane, 98%
AKOS015916391
AS-37206
CS-0187725
NS00042276
S05025
Q27284661
Solubility of 4-triethoxysilylbutanenitrile
The solubility of 4-triethoxysilylbutanenitrile can be characterized by several factors that influence its behavior in different solvents. Notably, this compound is known for its versatility and potential applications in various fields, including materials science and organic synthesis. Here are some key points regarding its solubility:
In summary, while 4-triethoxysilylbutanenitrile may be soluble in polar solvents, it is essential to consider the specific conditions, such as temperature and solvent polarity, which can significantly affect its solubility characteristics. Understanding these interactions is crucial for applications requiring precise solubility behavior.