The field of organic synthesis is constantly seeking reliable and versatile building blocks. Beta-D-Ribofuranose 1,2,3,5-tetraacetate, identified by CAS 13035-61-5, is a compound that perfectly fits this description. Its acetylated form of ribose offers unique advantages for chemists engaged in intricate synthetic pathways, particularly those involving nucleosides, nucleotides, and complex carbohydrate structures. As a specialized manufacturer and supplier, we focus on providing this compound with exceptional quality, typically ≥98.0% assay, to support diverse synthesis needs.

The compound's strategic acetylation of the hydroxyl groups enhances its stability and solubility in a range of organic solvents, which is crucial for many reaction conditions. Chemists often look to buy beta-D-Ribofuranose 1,2,3,5-tetraacetate for its predictable reactivity and its utility in protecting groups during multi-step syntheses. Its application is foundational in creating molecules that are vital for pharmaceutical research, biochemical studies, and even in analytical chemistry where precise derivatization is required.

Beyond its use as a direct intermediate, beta-D-Ribofuranose 1,2,3,5-tetraacetate serves as a model compound for studying electron-induced reactions involving sugar units, providing insights applicable to DNA and RNA behavior. This depth of application highlights its importance across scientific disciplines. For organizations seeking cost-effective solutions without compromising quality, engaging with a direct manufacturer in China offers significant benefits, including competitive pricing and a streamlined procurement process. We are dedicated to being a reliable source for high purity tetraacetyl ribofuranose for synthesis.

We encourage researchers and synthetic chemists to consider our high-quality beta-D-Ribofuranose 1,2,3,5-tetraacetate for their next project. To obtain detailed pricing information or to request a sample for evaluation, please contact us. Securing cas 13035-61-5 from a trusted partner ensures that your synthesis efforts are well-supported by a premium chemical intermediate.