(S)-(-)-5-ethyl-δ-valerolactone (CAS 108943-44-8): A Key Intermediate in Advanced Chemical Synthesis
Unlock precision in your chemical synthesis with this vital chiral building block. Essential for advanced applications.
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(S)-(-)-5-ethyl-δ-valerolactone
This compound, identified by its CAS 108943-44-8, is a critical chiral lactone intermediate, vital for the development of diagnostic reagents and advanced fine chemicals. Its specific stereochemistry (S) ensures precision in complex molecular architectures required for cutting-edge research and development.
- Explore the synthesis of complex chiral molecules using (S)-(-)-5-ethyl-δ-valerolactone CAS 108943-44-8, a crucial component in advanced chemical synthesis.
- Leverage its unique properties as a key building block for creating precise diagnostic reagents in pharmaceutical applications.
- Understand the importance of C7H12O2 molecular weight in determining reaction outcomes for fine chemical synthesis.
- Discover why this chiral intermediate is indispensable for achieving stereoselective outcomes in organic synthesis.
Advantages Provided by the Product
Enhanced Chirality Control
Utilize the inherent chirality of (S)-(-)-5-ethyl-δ-valerolactone for superior stereoselective outcomes in your synthetic pathways, a key aspect of pharmaceutical material development.
Versatile Chemical Intermediate
Serve as a foundational chemical intermediate, enabling the creation of a diverse range of fine chemicals and specialized diagnostic reagents.
Precision in Synthesis
Achieve high purity and specific molecular structures essential for sensitive diagnostic applications and complex organic synthesis processes.
Key Applications
Diagnostic Reagent Development
As a critical pharmaceutical material, this compound is foundational for the creation of advanced diagnostic reagents, ensuring accuracy and reliability in testing.
Fine Chemical Synthesis
Its utility as a fine chemical building block supports the intricate synthesis of novel compounds with specific functionalities for various industrial sectors.
Advanced Organic Chemistry
Researchers leverage this chiral intermediate for complex organic synthesis, benefiting from its predictable reactivity and stereochemical properties.
Pharmaceutical Research
Crucial in pharmaceutical research for developing new molecular entities and understanding reaction mechanisms in stereoselective processes.