The Chemical Structure of Octadecyltrimethoxysilane and Trimethoxy Hexadecyl Silane

Detailed information on the chemical structure of Octadecyltrimethoxisilane and Trimethoxy hexadecyl silane can be downloaded from an online database. The file contains information on the atoms, bonds, and connectivity of the molecule. It can be imported into computational software to perform visualization of its properties.

INNO SPECIALTY CHEMICALS is Octadecyltrimethoxysilane (CAS:3069-42-9) manufacturer and Trimethoxy(octadecyl)silane supplier in China, contact us for more information.

Chemical structure

A molecule’s chemical structure is the arrangement of atoms and their bonds. In the case of Octadecyltrimethoxysilane, this molecule contains 70 bonds in total, including 24 non-H bonds. Additionally, it contains 20 rotatable bonds. The image below gives an overview of this molecule’s structure and atoms.

ODTS and Trimethoxy octoxysilane are both organosilicon compounds. They are incompatible with strong oxidizing agents and are water-sensitive. The molecule’s chemical structure allows it to be used in self-assembled monolayers and hydrophobic coatings. In addition to their practical applications, ODTS and Trimethoxy octadecyl silane are also used to modify the silica dielectric surface in organic field effect transistors.

Function

OTMS or Octadecyl trimethoxysilane is an organosilicon compound. These two types of silanes form self-assembled monolayers that can convert hydrophilic surfaces to hydrophobic surfaces. These materials are manufactured by Co-Formula, an organic silicone company.

The compounds are used for coatings. The preferred backbone silanes are fluoroalkoxysilanes (FAS), methyltrimethoxysilane, butyltrimethoxysilane, and trimethoxy octadecyl silane.

Structure data

If you’re interested in learning more about the chemistry of octadecyltrimethoxy sulfones, you can find detailed information on their structure in the chemical literature. This page also provides information on their molecular weight, which is calculated by multiplying their atomic masses by the number of atoms. Once you’ve determined the structure, you can import it into computational software to begin modeling and visualization of this chemical.

Mechanism

The chemistry behind a molecule includes the arrangement of its atoms and the number of chemical bonds. Octadecyl trimethoxysilane contains 70 bond(s), 24 of which are non-H and 20 of which are rotatable. During its synthesis, the molecule is sonicated for 5 min. This agglomerated silica was then added to a mixture containing thirty-five milliliters of ethanol and twelve milliliters of ammonium hydroxide. After 20 minutes of vigorous mixing, the precipitate was centrifuged.

The separation of octadecyl trimethoxysilane and trimethoxy octadececyl silane involves two different methods. First, silica is modified with branched octadecyl groups using the Michael addition method. In the second method, photoinduced thiol-yne click chemistry is used to convert the silica to the corresponding branched octadecyl group. The resulting column exhibits mixed-mode separation.