Unlock Pharmaceutical Innovation with 7-(4-Chlorobutoxy)-3,4-Dihydro-2(1H)-Quinolinone
Your key intermediate for advanced API synthesis and specialized chemical production.
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7-(4-Chlorobutoxy)-3,4-Dihydro-2(1H)-Quinolinone
This high-purity crystalline organic base is a cornerstone for creating complex pharmaceutical molecules. Its primary role as an intermediate in the aripiprazole synthesis highlights its importance in the production of essential antipsychotic medications. Beyond this, its utility extends to the precise piperazine derivative synthesis and the efficient creation of various heterocyclic compounds, crucial for drug discovery and development.
- Facilitating Aripiprazole Synthesis: A vital building block for the production of this key antipsychotic drug, enabling consistent and high-yield manufacturing processes.
- Enabling Piperazine Derivative Synthesis: Its chemical structure makes it an ideal starting material for a wide array of piperazine derivatives, important in medicinal chemistry.
- High Yield in Heterocyclic Compound Production: Reliably produces important heterocyclic compounds such as 1,5,6,8-tetrahydropyrimidines and benzimidazoles, critical for drug discovery.
- Versatile Intermediate: Its ability to acetylate phenols and amines broadens its application scope in fine chemical and pharmaceutical manufacturing.
Key Advantages
Purity and Quality
Ensures reliable outcomes in pharmaceutical intermediate manufacturing, meeting stringent quality standards for API production.
Synthetic Versatility
Its structure supports diverse chemical transformations, making it a valuable component in various organic synthesis reagent applications.
Cost-Effective Production
Leveraging its high yield in API production chemicals contributes to more efficient and economical manufacturing processes.
Key Applications
Pharmaceutical Synthesis
An essential intermediate for the industrial production of pharmaceuticals, including the widely used antipsychotic Aripiprazole.
Medicinal Chemistry Research
A key building block for synthesizing novel piperazine derivatives and other complex organic molecules in drug discovery.
Fine Chemical Manufacturing
Utilized for its reactivity in acetylating phenols and amines, contributing to the production of various fine chemicals.
Heterocyclic Chemistry
Its high yield in forming heterocyclic structures makes it a preferred choice for researchers and manufacturers in this field.