Discover High-Purity 6-Fluoro-3-(4-piperidinyl)-1,2-benzisoxazole Hydrochloride: A Vital Pharmaceutical Intermediate

Unlock advancements in neuropsychiatric drug development with our premium 6-Fluoro-3-(4-piperidinyl)-1,2-benzisoxazole hydrochloride. As a crucial building block for leading antipsychotics, this compound offers unparalleled purity and reliability for your pharmaceutical synthesis needs.

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Advantages Delivered by Our Pharmaceutical Building Block

Exceptional Purity for Reliable Synthesis

Achieve superior results in your pharmaceutical synthesis with our high purity 6-Fluoro-3-(4-piperidinyl)-1,2-benzisoxazole hydrochloride. Its assay of ≥98.0%-102.0% (HPLC) minimizes impurities, ensuring consistent and predictable reaction outcomes, vital for producing active pharmaceutical ingredients.

Key Intermediate for Critical Medications

As a direct precursor for Risperidone and Paliperidone, this compound plays a pivotal role in manufacturing essential medications for mental health disorders. Utilizing this intermediate supports the efficient production of life-improving therapies.

Versatile Scaffold for Medicinal Chemistry

The unique structure of this heterocyclic intermediate serves as an excellent molecular scaffold. Researchers can modify its reactive sites to explore a broad spectrum of potential drug candidates, including antimicrobials and central nervous system agents.

Key Applications

Antipsychotic Drug Manufacturing

This compound is a cornerstone in the synthesis of widely prescribed antipsychotics, directly contributing to the production of vital treatments for conditions like schizophrenia and bipolar disorder.

Drug Discovery and Development

Its adaptable chemical structure makes it an invaluable tool for medicinal chemists exploring new therapeutic agents across various disease areas, from neurological disorders to oncology.

Fine Chemical Synthesis

As a specialized fine chemical, it is essential for complex organic synthesis projects, offering a reliable starting material for intricate molecular architectures.

Medicinal Chemistry Research

Researchers utilize this intermediate to create novel drug candidates by exploring structure-activity relationships, enhancing the potential for new pharmaceutical breakthroughs.