The Versatile Role of 1,2,3,4-Tetra-O-acetyl-L-arabinopyranose in Modern Industries
Discover the essential applications of this acetylated sugar in cosmetics, pharmaceuticals, and advanced biomedical research.
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1,2,3,4-Tetra-O-acetyl-L-arabinopyranose
1,2,3,4-Tetra-O-acetyl-L-arabinopyranose, identified by CAS 123163-97-3, stands as a crucial fine chemical with high purity (98%). It is extensively utilized as a versatile saccharide intermediate for the synthesis of intricate carbohydrates, making it invaluable in both cosmetic formulations and pharmaceutical development. Its molecular structure lends itself to advanced biomedical applications and potential therapeutic interventions for metabolic illnesses.
- This acetylated sugar serves as a pivotal building block for complex carbohydrate synthesis, offering a pathway to novel glycoconjugates.
- Its wide usage in cosmetics highlights its efficacy as an advanced cosmetic ingredient, contributing to innovative product formulations.
- The pharmaceutical applications of acetylated L-arabinopyranose are significant, positioning it as a key intermediate in drug discovery and development.
- Research into the therapeutic potential of acetylated sugars is expanding, with this compound showing promise in addressing multisystem metabolic illnesses.
Key Advantages It Brings
Enhanced Purity and Quality
Boasting a 98% purity, this acetylated arabinose derivative ensures reliable results in all its applications, supporting the demand for high-quality fine chemicals in research.
Broad Industrial Applicability
From enriching cosmetic products to serving as a critical component in pharmaceutical synthesis, its versatility demonstrates significant industrial value.
Foundation for Biomedical Innovation
The compound is instrumental in advanced biomedical research, contributing to the understanding and development of treatments for complex metabolic diseases.
Key Applications
Cosmetic Formulations
Leverage the properties of this saccharide intermediate for advanced cosmetic ingredient development, enhancing product performance and appeal.
Pharmaceutical Synthesis
Utilize this fine chemical as a vital precursor in the synthesis of active pharmaceutical ingredients and complex drug molecules.
Biomedical Research Tools
As a complex carbohydrate, it is essential for exploring novel therapeutic interventions and understanding metabolic pathways.
Carbohydrate Chemistry
Serves as a fundamental building block in academic and industrial research focused on carbohydrate synthesis and modification.