High-Purity 2,3-Dimethyl-4-(2,2,2-trifluoroethoxy)pyridine 1-Oxide CAS 103577-61-3
A crucial intermediate for pharmaceutical innovation, driving advancements in drug discovery and development.
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2,3-dimethyl-4-(2,2,2-trifluoroethoxy)pyridine 1-oxide
This compound serves as a vital building block in the synthesis of advanced pharmaceuticals, most notably as a key intermediate for proton pump inhibitors such as Lansoprazole. Its unique trifluoroethoxy substituent enhances metabolic stability and electron-withdrawing effects, making it invaluable in medicinal chemistry research and the development of new drug candidates.
- Discover the critical role of CAS 103577-61-3 in pharmaceutical intermediate synthesis, enabling the creation of complex drug molecules.
- Explore the benefits of high purity chemical synthesis for reliable and effective drug development processes.
- Learn how custom synthesis of pyridine derivatives can tailor compounds to specific research and development needs.
- Understand the impact of organofluorine heterocyclic compounds in modern medicinal chemistry for enhanced drug properties.
Key Advantages
Enhanced Metabolic Stability
The presence of the trifluoroethoxy group in 2,3-dimethyl-4-(2,2,2-trifluoroethoxy)pyridine 1-oxide significantly contributes to increased metabolic stability, a critical factor for drug efficacy and longevity.
Versatile Building Block
As a valuable intermediate in organic synthesis, this compound provides a versatile platform for creating a wide range of complex molecules for various applications.
Pharmaceutical Innovation
Leveraging medicinal chemistry building blocks like this pyridine derivative is essential for driving innovation and discovering novel therapeutics for unmet medical needs.
Key Applications
Pharmaceutical Synthesis
Essential for the production of active pharmaceutical ingredients (APIs), particularly in the development of proton pump inhibitors, showcasing its significance in the lansoprazole intermediate synthesis.
Chemical Research
A key compound for researchers exploring new reaction pathways and synthesizing novel molecules in academic and industrial settings, benefiting from high purity chemical synthesis.
Material Science
The unique properties imparted by the trifluoroethoxy group make it suitable for applications in developing advanced materials with specific characteristics, aligning with the use of organofluorine heterocyclic compounds.
Custom Synthesis Projects
Its availability for custom synthesis makes it a valuable resource for projects requiring specialized pyridine derivatives tailored to unique R&D objectives.