Titanium (IV) Ethoxide: A Versatile Catalyst and Coating Precursor
Unlock advanced chemical reactions and material properties with this reactive organic titanate.
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Titanium (IV) Ethoxide
This reactive liquid organic titanate, also known as Tetraethyl titanate (TET), is highly sensitive to moisture and serves as a crucial component in modern chemical synthesis. Its primary function as a Lewis acid catalyst enables a wide range of reactions, including esterification and condensation, leading to the efficient production of valuable chemical compounds. Furthermore, its ability to promote adhesion and enhance surface properties makes it indispensable in advanced coating applications.
- As a Reaction Catalyst: Tetraethyl titanate is a key Lewis acid catalyst for esterification, transesterification, condensation, and addition reactions, improving yield and reducing byproducts when utilized as a Titanium (IV) Ethoxide catalyst.
- For Polymer Crosslinking: It effectively crosslinks polymers containing functional groups like -OH or -COOH, enhancing material integrity and performance.
- Surface Treatment for Coatings: TET is used to treat glass, metals, and pigments, improving surface hardness, adhesion, and resistance to heat and chemicals, contributing to durable Titanium ethoxide coatings.
- Precursor for TiO2 Pigments: It acts as a vital TiO2 pigment precursor in sol-gel processes for creating micro- or nano-scale titanium dioxide pigments and films.
Key Advantages
Enhanced Reaction Efficiency
Leverage the catalytic power of this organic titanate reaction catalyst to achieve higher yields and cleaner reaction pathways in your synthesis processes.
Improved Material Properties
Utilize its crosslinking capabilities to create more robust and durable polymers, contributing to advanced material science.
Superior Surface Performance
Benefit from enhanced surface hardness and adhesion when applied to various substrates, crucial for high-performance coatings.
Key Applications
Esterification & Transesterification
Facilitates these crucial reactions in producing plasticizers, polyesters, and other esters, utilizing its function as a Titanium (IV) Ethoxide catalyst.
Polymer Crosslinking
Enhances the mechanical properties and thermal stability of polymers by acting as an effective moisture sensitive organic titanate crosslinking agent.
Surface Modification
Improves adhesion and durability of coatings on glass and metal surfaces, a key application of Titanium ethoxide coatings.
Nanomaterial Synthesis
Serves as a critical TiO2 pigment precursor in sol-gel processes for advanced nanomaterial development.