Methyl 2-iodobenzoate: A Key Intermediate
Unlock complex organic synthesis with this vital pharmaceutical building block.
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Methyl 2-iodobenzoate
Methyl 2-iodobenzoate, identified by CAS 610-97-9, is a crucial organic compound extensively utilized as a pharmaceutical intermediate. Its significance is particularly pronounced in the synthesis of Montelukast, a widely prescribed medication for asthma and allergy management. The presence of an iodine atom on the benzene ring and the methyl ester group makes it a highly reactive and versatile molecule for various organic transformations.
- This compound serves as a critical building block in the synthesis of complex organic molecules, particularly for pharmaceutical applications, enhancing the discovery of new drug candidates.
- Leveraging its unique chemical structure, it facilitates key reactions like cobalt-catalyzed cyclization with aldehydes, crucial for creating phthalide derivatives used in drug development.
- With a high purity of 98% or more, it ensures precision and reliability in downstream chemical processes, meeting the stringent requirements of the pharmaceutical industry.
- Its role as a pharmaceutical intermediate for Montelukast synthesis highlights its importance in the healthcare sector, contributing to the availability of essential medications.
Advantages
Versatile Reactivity
The iodine atom and ester group in Methyl 2-iodobenzoate allow for a wide range of chemical reactions, including oxidative couplings and specialized iodinations, making it a flexible tool for organic chemists.
Purity and Quality
Typically offered with ≥98% purity, this compound ensures consistent and high-quality results in sensitive synthesis pathways, vital for pharmaceutical manufacturing.
Essential for Drug Synthesis
As a key component in the production of essential drugs like Montelukast, it directly contributes to improving patient health outcomes and accessibility to critical treatments.
Key Applications
Pharmaceutical Synthesis
Used as a primary intermediate in the synthesis of active pharmaceutical ingredients (APIs) like Montelukast, showcasing its critical role in drug manufacturing.
Organic Chemistry Research
Serves as a valuable building block for developing new organic molecules and exploring novel synthetic routes in academic and industrial research settings.
Fine Chemical Production
Its versatile chemical properties make it suitable for the production of various fine chemicals, catering to diverse industrial needs beyond pharmaceuticals.
Intermediate for Complex Molecules
The compound's reactivity enables its use in creating complex structures and advanced intermediates for specialized chemical applications.