(S)-3-Dimethylamino-3-phenylpropanol: A Key Chiral Intermediate for Pharmaceutical Synthesis
(S)-3-Dimethylamino-3-phenylpropanol, a crucial chiral building block for advanced organic synthesis and pharmaceutical development.
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(S)-3-Dimethylamino-3-phenylpropanol
This vital compound, identified by CAS number 82769-75-3, serves as a critical chiral intermediate in the complex field of organic synthesis. Its primary significance lies in its role as a precursor in the manufacturing of important pharmaceutical agents, most notably dapoxetine hydrochloride, an antidepressant medication. The precise stereochemistry of this molecule is essential for its efficacy in downstream applications, making it a highly sought-after compound in pharmaceutical research and development.
- Explore the synthesis of dapoxetine hydrochloride using advanced organic synthesis techniques with this key intermediate.
- Discover the properties of phenylpropanol derivatives, including this compound's unique chiral nature.
- Understand the importance of chiral intermediates for pharmaceutical synthesis and drug development.
- Learn about the proper handling and storage of chiral amines to maintain their integrity and effectiveness.
Key Advantages
Precision Chiral Synthesis
Leverage the precise stereochemistry of (S)-3-Dimethylamino-3-phenylpropanol in your complex organic synthesis projects for optimal results.
Pharmaceutical Grade Quality
Utilize a compound recognized for its purity and consistency, essential for rigorous pharmaceutical research and development, meeting the demands of high-quality pharmaceutical synthesis.
Versatile Intermediate
Benefit from its wide-ranging applications as a fundamental building block in the creation of various fine chemicals and pharmaceutical agents.
Key Applications
Pharmaceutical Intermediates
As a critical component in the production of pharmaceutical compounds, including the synthesis of dapoxetine hydrochloride, it underscores its value in drug manufacturing.
Organic Synthesis
Employed extensively in diverse organic synthesis pathways, this chemical intermediate is vital for creating complex molecular structures.
Chiral Induction
Its inherent chirality makes it an important tool for chiral induction, enabling stereoselective reactions in advanced chemical processes.
Research & Development
Frequently used in R&D settings to explore new synthetic routes and develop novel compounds, supporting innovation in chemical sciences.