Titanium Ethoxide CAS 3087-36-3: A Versatile Precursor for Advanced Materials and Chemical Synthesis
Discover the unique properties and applications of Titanium Ethoxide, a key intermediate in producing advanced materials. Explore its role in sol-gel processes, nanotechnology, and various synthesis pathways. Learn why this high-purity compound is essential for innovation.
Get a Quote & SampleProduct Core Value
Titanium Ethoxide
As a leading supplier of high-quality chemicals, we offer Titanium Ethoxide (CAS 3087-36-3), a critical precursor for numerous advanced applications. Our product boasts a minimum assay of 99%, ensuring reliability and efficacy in your chemical synthesis and materials science projects. We are a trusted manufacturer in China, providing competitive pricing and robust quality standards.
- Titanium ethoxide synthesis processes benefit from our high-purity offering, ensuring consistent results.
- Explore diverse titanium ethoxide applications, from ceramics to specialized coatings, with our reliable material.
- The compound serves as an essential intermediate in complex chemical synthesis pathways.
- Leverage the benefits of sol-gel processes with this versatile organometallic precursor.
Advantages of Titanium Ethoxide
High Purity for Precise Applications
Our Titanium Ethoxide is produced to a 99% minimum assay, making it ideal for demanding applications in nanotechnology and materials science where purity is paramount for achieving desired material properties.
Versatility in Chemical Synthesis
This compound is a cornerstone for various chemical synthesis reactions, acting as a crucial building block for titanium-containing materials and complex organic molecules.
Enabling Advanced Materials
As a precursor for titanium dioxide and other advanced ceramics, it plays a vital role in developing high-performance materials for electronics, optics, and protective coatings.
Key Applications
Materials Science Research
Titanium ethoxide is fundamental in materials science, facilitating the creation of novel materials with tailored properties through techniques like sol-gel processing.
Nanotechnology Development
The compound is instrumental in nanotechnology, enabling the synthesis of nanoscale materials used in photocatalysts, sensors, and advanced electronic components.
Ceramics and Coatings Production
It acts as a precursor in the production of high-quality ceramics and durable protective coatings, valued for their thermal and chemical resistance.
Organic Synthesis Intermediate
Used as a key intermediate, it facilitates complex chemical synthesis, contributing to the development of new chemical entities and advanced polymers.