Glycolaldehyde Dimer, chemically known as 1,4-Dioxane-2,5-diol (CAS 23147-58-2), is a versatile organic compound that plays a crucial role in various synthetic processes within the chemical and pharmaceutical industries. As a readily available pharmaceutical intermediate, its unique structure and reactivity make it a valuable building block for researchers and manufacturers alike. If you are looking to buy this compound, understanding its applications is key.

The Significance of Glycolaldehyde Dimer in Synthesis

Glycolaldehyde Dimer is essentially a dimerized form of glycolaldehyde, the simplest hydroxyaldehyde. This characteristic makes it an important precursor molecule. Its cyclic structure, a 1,4-dioxane ring with hydroxyl groups, offers multiple points for chemical modification. This versatility is what makes it so sought after by chemists aiming to construct complex molecules.

Key Applications in Organic Synthesis:

  • Pharmaceutical Intermediates: Perhaps the most significant application of 1,4-Dioxane-2,5-diol is its use as a key intermediate in the synthesis of various pharmaceutical compounds. Its structure can be incorporated into drug candidates, influencing their pharmacological properties. For instance, it has been explored in the synthesis of HIV protease inhibitors, where its bis-THF alcohol moiety is a critical component. Researchers often seek to buy high-purity samples for these intricate synthesis routes.
  • Precursor for Amino Acids and Other Biomolecules: Glycolaldehyde itself is a precursor to glycine, one of the fundamental amino acids. While Glycolaldehyde Dimer is a more stable form, it can be utilized in pathways that ultimately lead to the formation of amino acids and other complex biomolecules through reactions like the formose reaction.
  • Chiral Synthesis: The presence of chiral centers in Glycolaldehyde Dimer allows for its use in chiral synthesis. When reacted with chiral catalysts, it can yield enantiomerically enriched products, which are vital for the development of stereospecific drugs. Many scientists search for a reliable supplier to procure specific stereoisomers or mixtures for their research.
  • Material Science: Beyond pharmaceuticals, compounds derived from Glycolaldehyde Dimer may find applications in material science, potentially in the development of novel polymers or specialty chemicals, although its primary use remains in fine chemical synthesis.

Where to Buy and What to Look For

When sourcing Glycolaldehyde Dimer (CAS 23147-58-2), whether for small-scale R&D or bulk manufacturing, it is crucial to partner with a reputable manufacturer or supplier. Key factors to consider include product purity (typically 99%), consistent supply, reliable packaging, and competitive pricing. Many suppliers in China offer this intermediate, making it accessible for global buyers. When you need to purchase this compound, reaching out to established chemical suppliers is the most effective way to ensure quality and prompt delivery.

The ability to buy high-quality 1,4-Dioxane-2,5-diol from a trusted manufacturer in China can significantly accelerate your research and development efforts. Its diverse applications underscore its importance in modern organic chemistry.