For R&D scientists and chemists engaged in the exploration of new molecular entities, a deep understanding of the properties and potential applications of chemical intermediates is vital. 2,3-Dimethylquinoxaline (CAS: 2379-55-7) is a heterocyclic organic compound that has garnered significant attention due to its structural features and chemical reactivity. As a derivative of quinoxaline, this compound serves as a versatile building block, enabling the synthesis of a broad spectrum of complex molecules used in various scientific disciplines.

The inherent chemical structure of 2,3-Dimethylquinoxaline, characterized by its bicyclic aromatic system with two methyl substituents, allows for diverse functionalization pathways. This makes it a valuable starting material in organic synthesis, particularly for researchers investigating new pharmaceutical candidates or novel materials. Its melting point typically falls between 104-109 °C, and it is generally supplied as a grey to brown powder or crystalline solid. Purity levels often exceed 97%, a critical factor for reproducible experimental results.

The utility of 2,3-Dimethylquinoxaline is prominently seen in pharmaceutical research, where it functions as an intermediate in the creation of drug molecules with potential therapeutic activities. Furthermore, its application extends to the development of materials with specific electronic or optical properties, as well as in various fine chemical syntheses. Researchers looking to source this compound can find reliable manufacturers and suppliers, often based in China, who can provide it at competitive prices. When you choose to buy from a reputable supplier, you ensure access to high-quality material supported by detailed specifications.

For those conducting chemical research, understanding the synthesis routes and potential downstream reactions of 2,3-Dimethylquinoxaline is key to unlocking its full potential. Exploring its role in catalysis, medicinal chemistry, or materials science can lead to groundbreaking discoveries. Access to this intermediate from trusted sources enables consistent progress in laboratory endeavors and pilot-scale development.