In the intricate world of chemical synthesis, the availability of reliable and high-quality intermediates is fundamental to innovation and production. A-D-Glucoheptonic Acid Sodium (CAS 10094-62-9) is one such compound, playing a significant role as both a chemical intermediate and a raw material in various synthetic pathways. This article explores its chemical significance and offers guidance for researchers and procurement specialists looking to integrate it into their manufacturing processes. If you need to buy A-D-Glucoheptonic Acid Sodium, consider the advantages offered by a dedicated chemical manufacturer.

Chemical Structure and Reactivity of A-D-Glucoheptonic Acid Sodium

A-D-Glucoheptonic Acid Sodium, identified by CAS 10094-62-9, is a sodium salt of a seven-carbon sugar acid. Its structure, featuring multiple hydroxyl groups and a carboxylate anion, endows it with a unique reactivity profile. This structure makes it amenable to various chemical transformations, including esterification, amidation, and oxidation reactions, which are common steps in the synthesis of complex organic molecules. The presence of the sodium ion can also influence its solubility and ionic interactions in different reaction media.

Applications as a Chemical Intermediate

The primary value of A-D-Glucoheptonic Acid Sodium in synthesis lies in its role as a building block. As a chemical intermediate, it serves as a precursor for a wide range of downstream products. These can include:

  • Pharmaceutical Compounds: Its structure is often incorporated into the synthesis of APIs, contributing specific functionalities or stereochemical features. For example, its derivatives have been studied for applications in targeted therapies.
  • Specialty Chemicals: It can be used in the creation of custom chemicals for niche industrial applications where its unique carbohydrate-derived structure is advantageous.
  • Research Chemicals: For academic and industrial research, it serves as a starting material for exploring novel chemical reactions and developing new synthetic methodologies.

The compound's typical assay of u226595.0% ensures that synthetic chemists can rely on its purity for predictable reaction outcomes and to minimize the formation of unwanted byproducts, which is crucial for efficiency and yield optimization.

Sourcing A-D-Glucoheptonic Acid Sodium for Synthesis

When integrating A-D-Glucoheptonic Acid Sodium into your synthesis plans, reliable sourcing is key. Choosing a manufacturer that provides consistent quality, accurate specifications (like its white to off-white solid appearance), and timely delivery is essential. For synthetic chemists, understanding the compound's properties, such as its slight solubility in water and methanol, is also important for designing effective reaction and purification protocols. Establishing a relationship with a reputable supplier, such as NINGBO INNO PHARMCHEM CO.,LTD., ensures you have access to this vital intermediate whenever your synthetic projects require it.

The Importance of Quality in Synthesis

The success of any chemical synthesis hinges on the quality of the starting materials. Impurities in intermediates like A-D-Glucoheptonic Acid Sodium can lead to reduced yields, side reactions, difficulties in purification, and even compromise the integrity of the final product. Therefore, procuring from manufacturers with stringent quality control measures is not just a preference but a necessity for achieving reproducible and high-quality synthetic results. When you buy A-D-Glucoheptonic Acid Sodium, ensure you are working with a supplier that values precision and reliability.