High Purity 2,2,6,6-Tetramethyl-4-piperidone (TEMP) CAS 826-36-8: Synthesis and Applications in Light Stabilizers
Discover the essential role of 2,2,6,6-Tetramethyl-4-piperidone (TEMP) in advanced chemical synthesis and polymer protection.
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2,2,6,6-Tetramethyl-4-piperidone
This high-purity intermediate, known as TEMP or Triacetonamine, is a critical component in the synthesis of advanced anti-hindered amine light stabilizers. Its unique chemical structure, represented by CAS number 826-36-8, enables the creation of highly effective photostabilizers, crucial for protecting polymers from degradation.
- Leverage the power of TEMP for superior polymer photostabilization and explore its role in the synthesis of hindered amine light stabilizers.
- Understand the chemical properties and applications of CAS 826-36-8, a vital precursor in creating high-performance additives.
- Optimize your material's resistance to UV degradation by incorporating intermediates derived from this compound, contributing to extended product lifespan.
- As a key player in organic synthesis, TEMP facilitates the development of next-generation materials with enhanced durability and performance.
Product Advantages
High Purity & Quality
Ensuring at least 97% purity, this chemical intermediate guarantees reliable performance in demanding synthesis processes, meeting stringent quality standards for hindered amine light stabilizer precursor applications.
Versatile Synthesis Precursor
Serves as a foundational building block for a wide array of advanced chemical compounds, particularly in the realm of light stabilization technologies, making it a valuable asset for organic synthesis intermediates.
Enhanced Polymer Protection
When transformed into light stabilizers, it provides exceptional protection against UV-induced degradation, thus extending the service life and maintaining the aesthetic appeal of polymers, a key benefit for the polymer additive chemistry sector.
Key Applications
Light Stabilizer Synthesis
This compound is fundamental in the production of hindered amine light stabilizers (HALS), crucial for protecting plastics and coatings from UV damage, aligning with needs in hindered amine light stabilizer manufacturing.
Organic Chemistry Research
Its well-defined structure and reactivity make it a valuable reagent in organic chemistry laboratories for developing new compounds and reaction pathways, supporting specialty chemical synthesis.
Material Science Advancement
By enabling the creation of advanced stabilizers, it contributes to the development of materials with improved weatherability and durability, a key aspect of photostabilizer technology.
Fine Chemical Manufacturing
As a crucial fine chemical intermediate, it plays a vital role in the supply chain for various industries requiring high-performance additives, directly impacting the fine chemical production landscape.