N-Benzyl-N-Methylethanolamine: A Vital Pharmaceutical Intermediate
Discover the essential role and applications of this key chemical compound in pharmaceutical synthesis.
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N-Benzyl-N-methylethanolamine
N-Benzyl-N-methylethanolamine, identified by CAS number 101-98-4, is a pivotal organic compound serving as a critical building block in the synthesis of various pharmaceutical agents, most notably as an intermediate for calcium antagonists like nylontipine. Its molecular structure, C10H15NO, with a molecular weight of 165.23, contributes to its utility in complex chemical processes.
- This high-purity chemical intermediate is essential for the synthesis of nylontipine, a key component in cardiovascular drug formulations.
- Leverage its properties as an organic synthesis building block to develop advanced pharmaceutical compounds and research molecules.
- Understand the critical role of N-Benzyl-N-Methylethanolamine in pharmaceutical intermediate applications, ensuring product efficacy and safety.
- Properly store this compound under cool and dry conditions to maintain its integrity and performance for your chemical synthesis needs.
Key Advantages in Chemical Synthesis
High Purity for Precision Synthesis
Achieve superior results in your pharmaceutical synthesis with a chemical intermediate known for its high purity, crucial for demanding applications.
Versatile Organic Chemistry Building Block
Utilize its unique chemical structure as a versatile building block in organic chemistry, enabling diverse synthetic pathways.
Reliable Intermediate for Calcium Antagonists
Ensure the consistent production of vital cardiovascular drugs by relying on this dependable intermediate for calcium antagonist synthesis.
Key Applications
Pharmaceutical Synthesis
As a vital pharmaceutical intermediate, it plays a crucial role in the development and production of therapeutic drugs, particularly those targeting cardiovascular conditions.
Organic Chemistry
Serves as a fundamental organic chemistry building block, enabling chemists to construct complex molecules and explore novel synthetic routes.
Calcium Antagonist Production
Specifically utilized in the synthesis pathway of calcium antagonists, contributing to the creation of essential medications.
Specialty Chemical Applications
Its unique properties also lend themselves to various specialty chemical applications, offering versatility beyond its primary pharmaceutical role.