Phenyltriethoxysilane

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CAS No.

780-69-8
Molecular Formula :

C12H20O3Si
Purity :

98%
Appearance :

Colorless transparent liquid
Annual capacity :

1000 Ton per year
Storage :

Be airtight in a cool and dry environment
Technical Index :

Density(ρ20, g/cm3)： 0.9800 ± 0.0050
Refractive Index(n25D)： 1.4580 ± 0.0050
Packing :

210LIron Drum：200kg/drum
1000L IBC container : 1000kg/container

Free Sample

Description :

Phenyl functional silanecan improve thermal stability of other silanes. Phenyl functional silane can be used as other silanes and siloxanes intermediates. Phenyl functional silane can be used for hydrophobic surface treatment. Phenyl functional silane can be used as hydrophobic additive to other silane coupling agents. Phenyltriethoxysilane may be used in a variety of applications: 1.Mineral Fillers: as a surface modifier for the aluminum trihydrate (ATH) used as a filler in halogen-free flame-retardant (HFFR) cable insulation 2.Silicones: as a crosslinker in high-temperature silicone elastomers 3.Catalysts: as an electron donor

Operation Instruction of IBC ：

Inner layer: 4-fluoroethylene drum, 250 kg volume 220kg net weight, and other Argon Protective Layers

Middle layer: 6-7 layers of foam for earthquake Prevention

Outer layer : Fixation of steel frame or hard plastic shell and bottom silica gel protection

Formation of cyclodextrin monolayer through a host–guest interaction with tailor-made phenyltriethoxysilane self-assembled monolayer 2019/06/17

Host–guest systems have been widely used for nanostructure construction; however, studying host–guest behavior by immobilizing the guest molecule on a substrate's surface faces great challenges. In this study, phenyltriethoxysilane (PTES) was selected as the ideal candidate to fabricate a g...

Prevention of Staphylococcus epidermidis biofilm formation using a low-temperature processed silver-doped phenyltriethoxysilane sol–gel coating 2019/06/14

Sol–gel coatings which elute bioactive silver ions are presented as a potential solution to the problem of biofilm formation on indwelling surfaces. There is evidence that high-temperature processing of such materials can lead to diffusion of silver away from the coating surface, reducing the amount...

Evaluation of prepared natural polymers in the extraction of chlorobenzenes from environmental samples: Sol–gel–based cellulose acetate-phenyltriethoxysilane fibers 2019/06/13

In this research, three fibers including cellulose acetate (CA), CA–phenyltriethoxysilane (PTES) prepared via sol–gel electrospinning and sol–gel–based CA fibers immersed in PTES solution (dipped–CA–PTES) were prepared. The composition and morphology of the prepared fibers were evaluated by energy d...

Study on the ammonia-catalyzed hydrolysis kinetics of single phenyltriethoxysilane and mixed phenyltriethoxysilane/tetraethoxysilane systems by liquid-state 29Si NMR 2019/06/10

In situ 29Si liquid-state nuclear magnetic resonance was used to investigate the ammonia-catalyzed hydrolysis and condensation of the single phenyltriethoxysilane (PTES) systems and the mixed tetraethoxysilane (TEOS)/PTES systems dissolved in methanol. By varying the molar ratio of the PTES, water a...

The role of phenyltriethoxysilane as an internal donor for the propylene polymerization over BuMgCl-based titanium catalyst 2019/06/09

The effect of phenyltriethoxysilane (PTES) as an internal donor, on propylene polymerization with butylmagnesium chloride (BuMgCl)-based titanium catalyst has been investigated in terms of activity and stereospecificity. The X-ray diffraction (XRD) pattern of the catalytic system including PTES as i...

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