Chemical Name: Titanium ethylhexoxide
CAS: 1070-10-6
Molecular Formula: C32H68O4Ti
Molecular weight: 564.75
Appearance: Pale yellow transparent liquid
Titanium content: 8.4%-8.55%
Chemical Name: Titanium ethylhexoxide
CAS: 1070-10-6
Molecular Formula: C32H68O4Ti
Molecular weight: 564.75
Appearance: Pale yellow transparent liquid
Titanium content: 8.4%-8.55%
Titanium ethylhexoxide Quick Details
Chemical Name: Titanium ethylhexoxide
CAS: 1070-10-6
Molecular Formula: C32H68O4Ti
Molecular weight: 564.75
Appearance: Pale yellow transparent liquid
Titanium content: 8.4%-8.55%
Titanium ethylhexoxide Typical Properties
Item | Standard | Results |
Appearance | Pale yellow transparent liquid | Pale yellow transparent liquid |
Titanium content | 8.4%-8.55% | 8.53% |
Chloride(Cl) content | ≤30ppm | 18ppm |
Color number | ≤100 | 22 |
Density at 25℃ | 0.933-0.936 | 0.935 |
Titanium ethylhexoxide description
Titanium ethylhexoxide, a reactive organic alkoxy titanate with ca. 100 % active content. Titanium ethylhexoxide is a clear colorless yellowish liquid. While still a highly reactive or thoester, TiOT is lesssensitive to moisture than TPT and TnBT.
Titanium ethylhexoxide Applications
Reaction Catalyst: Titanium ethylhexoxide is used as a catalyst for esterification, transesterification, condensation, and addition reactions. Typical reaction products include,(meth)acrylicesters, polyester, plasticizer, various esters, polyurethanes, etc. The benefits of using TiOT include elimination of by-products, increased yield, easy work-up, low catalyst concentration, and low toxicity.
Coatings: Glass, metals, fillers, and pigments can be treated with TiOT to give increased surface hardness, adhesion promotion, scratch resistance, coloring effects, heat and light reflection, iridescence, and corrosion resistance.
Paint Additive: Titanium ethylhexoxide can be used as an additive in paints to cross-link–OHor-COOH function polymers or binders, promote adhesion, or act as a binder itself.
TiO2 Pigment and Films: Micro-or nano-scale TiO2 pigments can be formed from TiOT.It can also be used to create a polymeric TiO2 film on surfaces via pyrolytic or hydrolytic(e.g.sol-gel) processes.