In the intricate world of chemical synthesis, specific compounds serve as linchpins, enabling the creation of a vast array of advanced materials and pharmaceuticals. 7-Methylxanthine, scientifically identified as 1H-Purine-2,6-dione,3,7-dihydro-7-methyl (CAS 552-62-5), is a prime example of such a crucial fine chemical intermediate.

Its fundamental role in chemical research and development stems from its well-defined 7-Methylxanthine chemical properties. With a molecular formula of C6H6N4O2 and a molecular weight of 166.14 g/mol, it provides chemists with a predictable and reactive molecular structure. The white powder appearance further simplifies its handling in laboratory and industrial settings, facilitating its integration into various synthetic schemes.

The significance of 7-Methylxanthine as a fine chemical intermediate cannot be overstated. It is a vital component in the synthesis of more complex organic molecules, often serving as a precursor in multi-step reaction pathways. The exploration of 7-Methylxanthine applications in medicine, particularly in pharmaceutical research, highlights its importance as a building block for potential drug candidates.

The processes for 7-Methylxanthine synthesis are meticulously developed to ensure high purity and consistent yield, crucial factors for its use in sensitive applications. Researchers and industrial chemists rely on such intermediates to push the boundaries of scientific discovery and product innovation. Whether for academic research or the development of new chemical entities, 7-Methylxanthine offers a reliable starting point.

NINGBO INNO PHARMCHEM CO.,LTD. is committed to supplying high-quality chemical intermediates that support groundbreaking research and industrial applications. By providing access to compounds like 7-Methylxanthine, we empower our clients to achieve their synthetic goals and contribute to advancements across various scientific disciplines. The utility of this compound in chemical synthesis underscores the foundational role of fine chemicals in modern innovation.