The world of organic synthesis is built upon a foundation of versatile chemical intermediates that enable the creation of complex and novel molecules. Among these, 2-Deoxy-L-ribose-anilide, identified by its CAS number 104578-89-4, stands out for its potential in various synthetic pathways. This compound, with its distinct structural features, offers significant opportunities for researchers and manufacturers seeking to develop advanced chemical products.

Understanding the Structure and Reactivity

2-Deoxy-L-ribose-anilide is an organic compound characterized by the molecular formula C11H15NO3. Its structure features a furanose ring system, a deoxy sugar component, and an anilide functional group. This combination of functionalities makes it a reactive molecule, capable of undergoing a range of chemical transformations. The presence of hydroxyl groups, an amine linkage, and the deoxy nature of the sugar moiety allows for diverse derivatization, making it a valuable intermediate for synthetic chemists. When scientists look to buy 2-deoxy-l-ribose-anilide, they are often seeking a reliable starting material for intricate synthetic routes.

Key Application Areas

The versatility of 2-Deoxy-L-ribose-anilide translates into several important application areas:

  • Pharmaceutical Synthesis: This is perhaps the most significant application. As a pharmaceutical intermediate, it can be a crucial precursor in the synthesis of various drug candidates. Its structure may be incorporated into molecules designed to target specific biological pathways or receptors. For those involved in developing new therapeutics, sourcing high-purity CAS 104578-89-4 from a reputable manufacturer is paramount.
  • Organic Synthesis Research: Academic and industrial research laboratories utilize compounds like 2-Deoxy-L-ribose-anilide as building blocks for exploring new chemical reactions, developing novel synthetic methodologies, or creating libraries of compounds for screening. The ability to buy this compound in research quantities facilitates such investigations.
  • Fine Chemical Production: Beyond pharmaceuticals, this intermediate can be employed in the synthesis of other fine chemicals used in specialized industries. Its unique structural motifs can contribute to the development of performance chemicals with specific properties.
  • Potential in Material Science: While less documented, the inherent chemical structure of 2-Deoxy-L-ribose-anilide might offer opportunities for integration into novel functional materials, although further research in this area would be required.

When considering the purchase of 2-Deoxy-L-ribose-anilide, whether for pharmaceutical development, academic research, or fine chemical manufacturing, partnering with a reliable chemical supplier is essential. Manufacturers in China, such as NINGBO INNO PHARMCHEM CO.,LTD., provide this vital intermediate with guaranteed purity and competitive pricing. This ensures that researchers and manufacturers can efficiently procure the materials they need to drive innovation in their respective fields. If you need to buy CAS 104578-89-4 for your synthesis projects, explore the reliable options available.