Titanium Tetraisopropanolate丨CAS 546-68-9

Titanium Tetraisopropanolate丨CAS 546-68-9
Product Introduction:
Catalog No.: SS005784
CAS No.: 546-68-9
Ti: 16.6%~16.9%
Product Name: Titanium tetraisopropanolate
Molecular Formula: C12H28O4Ti
Molecular Weight: 284.22
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Technical Parameters
Description

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Specifications

 

Appearance Clear liquid
Color (APHA) 100 max
Ti 16.6% ~ 16.9%
Density (25°C) 0.95 ~ 0.965 g/cm³

 

 

 

Applications

 

Titanium tetraisopropanolate, also known as titanium isopropoxide, is a widely used organometallic compound with significant applications in materials science, catalysis, and chemical synthesis. It is a key precursor in sol–gel processes for the preparation of titanium dioxide (TiO₂) thin films, coatings, and nanoparticles, which are applied in photocatalysis, solar cells, sensors, and protective layers. In organic synthesis, it acts as a catalyst or reagent in esterification, transesterification, and oxidation reactions, playing an important role in fine chemical and pharmaceutical production. Titanium tetraisopropanolate is also employed in the preparation of advanced ceramic and nanostructured materials, including catalysts, dielectric coatings, and optical devices. Its utility as a cross-linking and binding agent in polymer and resin modification further expands its industrial applications.

 

Benefits

 

The benefits of titanium tetraisopropanolate come from its strong reactivity, versatility, and ability to form stable titanium-based structures. Its role as a precursor to high-purity TiO₂ provides significant advantages in creating advanced functional materials with excellent photocatalytic, optical, and electronic properties. In catalysis, it enables efficient and selective transformations, improving yields in esterification and transesterification processes, which are crucial in biodiesel production and pharmaceutical synthesis. The compound's compatibility with sol–gel technology allows for the controlled fabrication of nanomaterials and thin films with tailored porosity, stability, and performance. Additionally, its use in coatings and surface treatments enhances durability, chemical resistance, and functional performance of industrial products. These benefits make titanium tetraisopropanolate a cornerstone compound in both research and industrial innovation.

 

Conclusion

 

Titanium tetraisopropanolate is a highly versatile organometallic reagent that supports advancements in materials science, catalysis, and industrial chemistry. Its applications span from the preparation of TiO₂-based functional materials to its role as a catalyst in key chemical transformations. The benefits of this compound include improved efficiency in synthetic processes, enhanced performance in coatings and nanomaterials, and the ability to enable next-generation technologies in photocatalysis, energy, and electronics. As industries continue to demand high-performance materials and sustainable chemical processes, titanium tetraisopropanolate remains an essential building block for innovation.

 

 

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