For researchers and chemists working at the forefront of organic synthesis, sourcing high-quality, specialized carbohydrate derivatives is often a key challenge. Among these, 1,2-O-(1-Methylethylidene)-3-O-(phenylmethyl)-α-D-glucofuranose, identified by its CAS number 22529-61-9, stands out as a valuable chemical building block. This compound plays a critical role in various sophisticated synthetic pathways, most notably as an intermediate in the pharmaceutical industry.

Understanding the characteristics of CAS 22529-61-9 is the first step for any laboratory considering its use. This glucofuranose derivative is known for its specific molecular formula, C16H22O6, and a molecular weight of approximately 310.34 g/mol. Physically, it presents as an oil, often described as clear, colorless to yellow. Its precise stereochemistry, as indicated by the alpha-D designation, is crucial for its efficacy in targeted reactions. These properties make it an attractive intermediate for complex molecule construction.

The primary application driving demand for 1,2-O-(1-Methylethylidene)-3-O-(phenylmethyl)-α-D-glucofuranose is its use in the synthesis of Fondaparinux Sodium. This pharmaceutical agent requires a precisely structured precursor, and this specific glucofuranose derivative fits that requirement perfectly. Therefore, for companies involved in pharmaceutical intermediate manufacturing, establishing a reliable supply chain for this compound is essential for consistent production and quality control.

When sourcing this specialty carbohydrate, researchers and procurement specialists often look for suppliers who can guarantee high purity levels, typically a minimum of 97%. Global manufacturers, including those based in China, offer this compound, ensuring its availability for research laboratories and industrial facilities worldwide. Factors such as packaging options (e.g., grams to kilograms), lead times, and supplier reliability are critical considerations. Exploring options for purchasing this chemical, whether for initial R&D or larger-scale synthetic projects, involves evaluating these aspects to ensure the best fit for project needs.

The versatility of 1,2-O-(1-Methylethylidene)-3-O-(phenylmethyl)-α-D-glucofuranose extends beyond its pharmaceutical applications. As a functionalized carbohydrate, it can be a valuable component in the synthesis of other fine chemicals and novel organic compounds. Its isopropylidene and benzyl protecting groups offer strategic advantages in multistep synthesis, allowing for selective deprotection and further modification. Therefore, for any laboratory undertaking complex organic synthesis, understanding where to buy this essential intermediate and its associated properties is key to successful outcomes.