In the dynamic field of pharmaceutical research, the availability of high-quality chemical intermediates is paramount. One such compound gaining significant traction is 7-Nitroisoquinoline, identified by CAS number 13058-73-6. This heterocyclic organic molecule, characterized by its distinct nitro group at the 7-position of the isoquinoline ring, serves as a foundational building block for a wide array of complex organic molecules, particularly those with therapeutic potential.

The synthesis of 7-Nitroisoquinoline typically involves multi-step processes that require precise control over reaction conditions. Researchers often rely on established methods to ensure the desired regioselectivity and high purity, which are critical for its subsequent use in drug development. Its molecular formula, C9H6N2O2, and molecular weight of approximately 174.16 g/mol, are well-documented. The compound's physical properties, such as its appearance as a yellow to brown solid and a melting point around 177-178 °C, are also important considerations for handling and storage.

One of the primary drivers for the demand of 7-Nitroisoquinoline is its role as a key intermediate in medicinal chemistry. It is frequently employed in the synthesis of various bioactive compounds, including those being investigated for anticancer, antimicrobial, and anti-HIV activities. For instance, the reduction of the nitro group can lead to the formation of 7-aminoisoquinoline, a precursor for further functionalization. The ability to undergo nucleophilic aromatic substitution reactions also opens up numerous synthetic pathways, allowing chemists to create diverse molecular structures tailored for specific biological targets.

For pharmaceutical companies and research institutions, sourcing high-purity 7-Nitroisoquinoline is essential. This is where partnering with a reputable manufacturer and supplier, especially from China, becomes advantageous. Such suppliers can offer competitive pricing, consistent quality (often exceeding 97% purity), and reliable supply chains, crucial for both small-scale research and larger production runs. Exploring options to buy this compound directly from these sources can significantly streamline the procurement process and reduce lead times.

Beyond its direct use in synthesis, 7-Nitroisoquinoline itself and its derivatives are subjects of ongoing research into their intrinsic biological activities. Studies have explored its potential as an enzyme inhibitor and its impact on various cellular pathways. This continued exploration underscores its importance not just as a tool but also as a compound of interest for novel therapeutic discovery.

In conclusion, 7-Nitroisoquinoline (CAS 13058-73-6) stands as a pivotal compound in the landscape of modern drug discovery. Its versatility in organic synthesis, coupled with its potential biological significance, makes it a sought-after material. For researchers aiming to innovate, securing a dependable source for this intermediate is a strategic imperative. Consider investigating offers from established Chinese manufacturers and suppliers to ensure quality and cost-effectiveness for your next project.