Quinoxaline CAS 91-19-0: A Versatile Pharmaceutical Intermediate
Discover the key chemical properties, synthesis pathways, and diverse applications of Quinoxaline (CAS 91-19-0), a crucial heterocyclic compound for organic synthesis and pharmaceutical development. Explore its physical characteristics and potential uses.
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Quinoxaline
Quinoxaline, a significant heterocyclic compound with the chemical formula C8H6N2, is formed by the fusion of a benzene ring and a pyrazine ring. It serves as a valuable organic synthesis reagent and a critical intermediate in the production of various pharmaceuticals, including anti-tuberculosis drugs. As a reliable supplier in China, we offer high-purity quinoxaline, ensuring consistent quality for your research and manufacturing needs. Its distinct physical and chemical properties make it indispensable in numerous chemical processes.
- Explore the detailed chemical properties of Quinoxaline CAS 91-19-0, crucial for optimizing your organic synthesis procedures.
- Understand the synthesis pathways of this vital pharmaceutical intermediate, ensuring a reliable supply chain for drug development.
- Leverage quinoxaline's versatility as a core structure in medicinal chemistry and materials science.
- Benefit from our commitment to providing high-quality chemical reagents, supporting advancements in pharmaceutical research and development.
Key Advantages of Using Quinoxaline
Versatile Reactivity
Quinoxaline's unique structure provides diverse reaction sites, making it a valuable building block in complex organic synthesis, enabling the creation of novel compounds.
Pharmaceutical Intermediate
As a key precursor for pharmaceuticals, quinoxaline plays a critical role in drug discovery and development, particularly in areas like anti-tuberculosis treatments.
Defined Chemical Properties
With a well-documented melting point (29-32 °C), boiling point (220-223 °C), and specific gravity, quinoxaline allows for precise process control and reliable outcomes.
Key Applications
Organic Synthesis
Quinoxaline serves as a fundamental reagent for creating complex organic molecules, supporting innovation in chemical research and development.
Pharmaceutical Intermediates
Its role as an intermediate is vital for the synthesis of active pharmaceutical ingredients (APIs), contributing to advancements in healthcare.
Material Science Research
The heterocyclic structure of quinoxaline derivatives shows promise in the development of new materials, including those for solar cell applications.
Drug Discovery
The versatility of the quinoxaline scaffold makes it an attractive starting point for medicinal chemists seeking to develop new therapeutic agents.