Unveiling 2-[2-(Diethylamino)ethoxy]ethanol: A Key Chemical Intermediate
Discover the essential properties and critical applications of this vital chemical building block.
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2-'[2-(Diethylamino)ethoxy]'ethanol
This compound, identified by its CAS number 140-82-9, serves as a crucial intermediate in the synthesis of various pharmaceutical compounds. Its specific molecular structure and properties make it invaluable for targeted chemical reactions, particularly in the production of Pentoxyverine. Understanding the applications of such chemical intermediates is key to advancing pharmaceutical and fine chemical manufacturing.
- Unlock efficient pharmaceutical synthesis by utilizing 2-[2-(diethylamino)ethoxy]ethanol as a key intermediate for compounds like Pentoxyverine.
- Explore the detailed chemical properties, including its designation as 6-Ethyl-3-oxa-6-azaoctanol, which are critical for process optimization.
- Leverage the high purity level of >=98.0% of this chemical intermediate to ensure reliable and consistent results in your synthesis pathways.
- Discover the practical packaging solutions, typically in 200 kg/drum quantities, designed for safe handling and storage of this essential chemical.
Key Advantages Offered
Reliable Synthesis Intermediate
As a dedicated intermediate for compounds like Pentoxyverine, this chemical ensures a direct and efficient route in complex chemical synthesis pathways.
Defined Chemical Specifications
With a clearly defined purity of >=98.0% and consistent physical properties, it supports reproducible outcomes in demanding industrial applications.
Versatile Chemical Applications
Beyond its primary role, the unique structure of this compound opens avenues for its use in various organic synthesis processes, highlighting its versatility.
Key Applications
Pharmaceutical Intermediates
This compound is a vital building block in the pharmaceutical industry, specifically for the production of Pentoxyverine, showcasing its importance in pharmaceutical synthesis intermediates.
Organic Synthesis
Its reactive functional groups make it a valuable reagent in various organic synthesis projects, enabling the creation of complex molecular structures.
Fine Chemical Manufacturing
In the realm of fine chemical manufacturing, this intermediate contributes to the efficient production of specialized chemical products with high purity requirements.
Chemical Research and Development
Researchers in the field of chemistry can utilize this compound for exploring new synthetic routes and developing novel chemical entities, supporting chemical compound data and applications.