Quinoxaline (CAS 91-19-0) is more than just a chemical compound; it's a gateway to innovation in both organic synthesis and pharmaceutical development. This heterocyclic molecule, formed by the characteristic fusion of benzene and pyrazine rings, serves as a fundamental building block for creating complex chemical structures. Its utility in organic synthesis is vast, allowing researchers to explore new molecular architectures and functionalities.

In the pharmaceutical industry, quinoxaline is recognized for its essential role as an intermediate. It is a critical component in the synthesis of various medicinal compounds, underpinning the creation of life-saving drugs. The inherent properties of the quinoxaline scaffold lend themselves well to modifications that can enhance therapeutic efficacy. This makes it a compound of significant interest for drug discovery programs aiming to identify novel treatments for diseases.

The availability of quinoxaline as a high-purity chemical is vital for researchers and manufacturers. Understanding the detailed chemical properties, such as its molecular formula (C8H6N2), molecular weight (130.14700), and physical state (light yellow to brown crystalline low melting solid), is crucial for its effective application. When considering purchasing quinoxaline, exploring options from reputable suppliers ensures that you receive a product that meets stringent quality standards. The price point for this chemical intermediate reflects its importance and the complexity of its synthesis, making it a worthwhile investment for critical research and development projects. Exploring advanced synthesis methods for quinoxaline can further enhance its accessibility and application scope.