Discover the Potential of L-Alanine, N-(chlorophenoxyphosphinyl)-, 1-Methylethyl Ester
Unlocking innovation in UV-curing with advanced chemical solutions.
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L-Alanine, N-(chlorophenoxyphosphinyl)-, 1-Methylethyl Ester
This chemical compound, identified by CAS 261909-49-3, is a crucial component in the field of UV-curing materials, specifically functioning as a photoinitiator. Its molecular formula is C12H17ClNO4P, and it has a molecular weight of 305.694441. The compound's unique structure combines an alanine amino acid backbone with a chlorophenoxyphosphinyl group and an isopropyl ester, making it valuable for various chemical syntheses and applications.
- Explore the diverse applications of L-Alanine, N-(chlorophenoxyphosphinyl)-, 1-Methylethyl Ester in advanced material science.
- Understand the synthesis pathways for L-Alanine, N-(chlorophenoxyphosphinyl)-, 1-Methylethyl Ester, crucial for efficient production.
- Learn about the key properties of N-(Chlorophenoxyphosphinyl)-L-alanine 1-methylethyl ester, vital for optimizing its use.
- Source this essential chemical from reliable global suppliers for your research and industrial needs.
Product Advantages
High Performance Photoinitiation
As a key photoinitiator, L-Alanine, N-(chlorophenoxyphosphinyl)-, 1-Methylethyl Ester facilitates efficient UV-curing processes, enhancing product durability and curing speed, critical for achieving optimal results in advanced manufacturing.
Versatile Chemical Structure
The unique combination of an amino acid and phosphonate group in isopropyl(chloro(phenoxy)phosphoryl)-L-alaninate offers versatility for various chemical syntheses and potential applications in fine chemicals and beyond.
Reliable Supply Chain
With numerous global suppliers offering CAS 261909-49-3, businesses can ensure a stable and consistent supply, supporting continuous production and research endeavors in specialized chemical markets.
Key Applications
UV-Curing Systems
Essential for initiating polymerization reactions under UV light, this compound significantly impacts the performance of coatings, inks, and adhesives in industries requiring rapid and efficient curing.
Fine Chemical Synthesis
The complex molecular structure of L-Alanine, N-(chlorophenoxyphosphinyl)-, 1-Methylethyl Ester makes it a valuable intermediate or reagent in the synthesis of other specialized organic compounds.
Material Science Research
Researchers leverage this compound to explore new material properties and develop novel applications, contributing to advancements in polymer chemistry and material engineering.
Specialty Chemicals Development
Its distinct chemical properties position it as a target for the development of new specialty chemicals with tailored functionalities for niche industrial requirements.