2-chloro-4-phenylbenzo[h]quinazoline: Properties, Applications, and Sourcing Guide
Discover the essential details of this key chemical intermediate for your advanced material needs.
Get a Quote & SampleProduct Core Value
![2-chloro-4-phenylbenzo[h]quinazoline](https://www.nbinno.com/2025/webimg/gemini_688b787fb26a5_1753970815.png)
2-chloro-4-phenylbenzo[h]quinazoline
This compound is a crucial component in the field of UV-Curing materials, serving as a photoinitiator. Its specific chemical structure and properties make it valuable for initiating polymerization reactions under UV light, contributing to the development of advanced coatings, inks, and adhesives. Sourcing this chemical intermediate requires understanding the complexities of the fine chemical supply chain.
- Explore the role of a 2-chloro-4-phenylbenzo[h]quinazoline CAS 4786-80-5 in photochemical processes, understanding its reactivity and efficiency.
- Discover reliable sources to buy 2-chloro-4-phenylbenzo[h]quinazoline, ensuring quality and consistency for your applications.
- Learn about the synthesis and properties of this phenylbenzo[h]quinazoline derivative, crucial for researchers and manufacturers.
- Understand the importance of a trusted UV-Curing photoinitiator manufacturer for consistent product performance.
Key Advantages
High Purity Organic Compound
We ensure that this organic compound is of high purity, making it suitable for demanding chemical synthesis applications and providing reliable results.
Versatile Fine Chemical Intermediate
As a versatile fine chemical intermediate, it plays a vital role in various synthesis pathways, supporting innovation in material science and specialty chemicals.
Globally Sourced Chemical
Access to this globally sourced chemical ensures a stable supply chain, supporting consistent production and research efforts worldwide.
Key Applications
UV-Curing Processes
This chemical is integral to UV-Curing processes, where it acts as a photoinitiator to rapidly cure inks, coatings, and adhesives upon exposure to UV light.
Photochemistry Research
Researchers utilize this compound in photochemistry research to study reaction mechanisms and develop new light-activated materials and processes.
Material Science Development
Its unique properties make it a valuable building block in material science for creating novel polymers and functional materials with specific characteristics.
Organic Synthesis
In organic synthesis, this compound serves as a key intermediate for the preparation of more complex molecules and specialized chemical products.