Skip to main content

Tetrakis(2-ethylbutyl) orthosilicate

ADVERTISEMENT
Identification
Molecular formula
C24H52O4Si
CAS number
18765-38-3
IUPAC name
tetrakis(2-ethylbutyl) silicate
State
State

At room temperature, tetrakis(2-ethylbutyl) silicate is in a liquid state.

Melting point (Celsius)
-64.00
Melting point (Kelvin)
209.15
Boiling point (Celsius)
315.00
Boiling point (Kelvin)
588.15
General information
Molecular weight
376.78g/mol
Molar mass
376.7720g/mol
Density
0.8832g/cm3
Appearence

Tetrakis(2-ethylbutyl) silicate is a clear and colorless liquid with a slight alcohol-like odor. It is a silicon-based compound that is used primarily as a crosslinking agent and as a precursor in the synthesis of other silicon compounds. Its liquid state at room temperature and organic solubility make it useful in various industrial applications, particularly in coatings, adhesives, and sealants.

Comment on solubility

Solubility of Tetrakis(2-ethylbutyl) silicate

Tetrakis(2-ethylbutyl) silicate is a silicate compound renowned for its unique solubility characteristics. Understanding the solubility of this compound is crucial for its applications, particularly in the fields of coatings and sealants. Here are some key points regarding its solubility:

  • Solvent Compatibility: Tetrakis(2-ethylbutyl) silicate exhibits varying solubility in different organic solvents, making it particularly useful in specific formulations. It tends to dissolve well in non-polar organic solvents.
  • Water Solubility: This compound is generally not very soluble in water, which is typical for many silicates due to their hydrophobic nature.
  • Temperature Influence: The solubility can be influenced by temperature; as the temperature increases, the solubility in organic solvents typically improves, enhancing its performance in various applications.
  • Practical Implications: Understanding these solubility traits is vital for achieving the desired consistency and performance in commercial products, ensuring proper mixing and application.

In summary, the solubility of tetrakis(2-ethylbutyl) silicate portrays an intriguing interaction with organic solvents and presents challenges in aqueous environments. As noted, it is essential to choose the correct solvent system to maximize its effectiveness in practical contexts.

Interesting facts

Interesting Facts about Tetrakis(2-ethylbutyl) Silicate

Tetrakis(2-ethylbutyl) silicate is a fascinating organosilicon compound that has garnered interest due to its unique properties and applications. As a silicate compound, it integrates both silicon and oxygen with organic groups, resulting in a versatile molecule. Here are some intriguing aspects of this compound:

  • Versatility in Applications: Tetrakis(2-ethylbutyl) silicate is often used in the formulation of sealants and adhesives, exploiting its strong adhesive properties and flexibility.
  • Role in Sol-Gel Processes: This compound plays a crucial role in sol-gel chemistry, where it aids in the production of silica-based materials, useful in electronics and optics.
  • Surface Modifications: It is involved in surface treatments that enhance hydrophobicity, which can be important for various industrial applications.

The synthesis of tetrakis(2-ethylbutyl) silicate typically involves the reaction of silicon tetrachloride with 2-ethylbutanol, showcasing a key example of how simple organic alcohols can be transformed into complex organosilicon structures. As noted by leading chemists, "This transformation not only highlights the importance of silicon in modern chemistry but also exemplifies the creativity of the organic synthesis landscape."

Additionally, research has shown that organosilicon compounds like tetrakis(2-ethylbutyl) silicate contribute significantly to industries ranging from construction to technology, making them invaluable in advancing modern materials science.


In conclusion, tetrakis(2-ethylbutyl) silicate stands as a testament to the versatility and innovation found in the world of chemical compounds, embodying both functional properties and a myriad of applications that continue to expand as research advances.

Synonyms
Tetrakis(2-ethylbutoxy)silane
78-13-7
2-Ethylbutyl silicate
Coolanol 25
tetrakis(2-ethylbutyl) silicate
Flo-Cool 180
2-Ethylbutyl orthosilicate
Tetra(2-ethylbutoxy) silane
Tetrakis(2-ethylbutyl) orthosilicate
2-Ethyl-1-butanol, silicate
Tetra (2-ethylbutyl) orthosilicate
Silicic acid (H4SiO4),tetrakis(2-ethylbutyl) ester
Silicic acid (H4SiO4), tetrakis(2-ethylbutyl) ester
DTXSID1052535
1-Butanol, 2-ethyl-, silicate
SILICIC ACID, TETRA(2-ETHYLBUTYL) ESTER
Tetrakis(2-ethyl-1-butyl) orthosilicate
Silane, tetrakis(2-ethylbutoxy)-
EINECS 201-085-9
BRN 1713700
2Ethylbutyl silicate
2Ethylbutyl orthosilicate
2Ethyl1butanol, silicate
Tetra(2ethylbutoxy) silane
Tetrakis(2ethylbutoxy)silane
Tetra(2-ethylbutyl) silicate
Tetrakis-(ethylbutoxy) silane
SCHEMBL790580
DTXCID8031108
Tetra (2ethylbutyl) orthosilicate
MFCD00027081
AKOS024430654
Silicic acid, tetra(2ethylbutyl) ester
Tetrakis(2-ethylbutyl) orthosilicate #
1Butanol, 2ethyl, silicate (6CI,7CI)
DB-056287
Silicic acid, tetrakis(2-ethylbutyl) ester
NS00041011
Silicic acid(h4sio4),tetrakis(2-ethylbutyl)ester
Silicic acid (H4SiO4), tetrakis(2ethylbutyl) ester
201-085-9