3-Chloropropyl Methyl Ether: A Versatile Intermediate for Pharmaceutical Synthesis and Specialty Chemicals
Unlock efficient synthesis pathways with a crucial building block for advanced chemical applications.
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3-Chloropropyl Methyl Ether
3-Chloropropyl methyl ether (CAS: 36215-07-3) is an indispensable compound in the realm of organic synthesis, primarily recognized for its role as a key intermediate in the production of vital pharmaceuticals, most notably in the synthesis of the antihypertensive drug Aliskiren. Its chemical structure makes it an effective etherification reagent, facilitating the creation of complex molecular architectures.
- As a crucial pharmaceutical intermediate, 3-chloropropyl methyl ether plays a vital role in the synthesis of complex drug molecules, contributing to advancements in healthcare solutions.
- Leveraging its properties as an etherification reagent, 3-chloropropyl methyl ether facilitates the preparation of key intermediates like 4-bromo-2-(3-methoxypropyl)-benzyl ether, essential for antihypertensive drug development.
- With a guaranteed assay of ≥99%, this chemical intermediate ensures high purity and reliable performance, critical for stringent pharmaceutical applications.
- The compound's typical properties, including its colorless to light yellow clear liquid appearance and low moisture content, underscore its quality and suitability for sensitive chemical processes.
Key Advantages
High Purity and Reliability
With an assay of ≥99%, 3-chloropropyl methyl ether guarantees the purity required for demanding applications, ensuring consistent and reliable outcomes in your synthesis projects.
Versatile Etherification Reagent
This compound serves as a potent etherification reagent, enabling efficient the formation of ether linkages and supporting the creation of diverse organic molecules crucial for drug development.
Critical Pharmaceutical Intermediate
As a vital building block, 3-chloropropyl methyl ether is indispensable for the synthesis of active pharmaceutical ingredients (APIs), significantly contributing to the medical intermediate supply chain.
Key Applications
Pharmaceutical Synthesis
Utilized in the synthesis of Active Pharmaceutical Ingredients (APIs), particularly as a key component in the manufacturing of antihypertensive drugs like Aliskiren.
Organic Synthesis
Functions as a versatile etherification reagent, enabling the formation of ether bonds and the synthesis of various organic compounds for research and industrial purposes.
Specialty Chemicals
Serves as a building block for a range of specialty chemicals, contributing to the development of advanced materials and innovative chemical products.
Medical Intermediates
Plays a critical role in the supply chain of medical intermediates, supporting the broader pharmaceutical industry's research and production efforts.