High Purity a-D-Allofuranose, 1,2:5,6-bis-O-(1-methylethylidene)-3-O-(phenylmethyl)- for Advanced Chemical Synthesis
Unlock breakthrough innovations with our premium a-D-Allofuranose derivative, essential for cutting-edge electronic and pharmaceutical applications.
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a-D-Allofuranose,1,2:5,6-bis-O-(1-methylethylidene)-3-O-(phenylmethyl)-
This high-purity compound serves as a vital intermediate in complex organic synthesis, particularly for the development of advanced materials in the electronics sector. Its specific structure makes it an ideal building block for creating novel OLED components and other functional electronic chemicals.
- Discover efficient organic synthesis pathways using our high purity a-D-Allofuranose derivative, a key electronic chemical intermediate.
- Explore the benefits of using this phenylmethyl allo furanose intermediate in your next OLED material development project.
- Secure a reliable supply of this crucial raw material for advanced organic synthesis.
- Learn how our CAS 22331-21-1 chemical intermediate can elevate your research and production processes.
Key Product Advantages
Exceptional Purity
Achieve consistent and reproducible results in your chemical synthesis with our product, boasting a purity of 99%, making it a superior choice for demanding applications.
Versatile Application
This compound is an excellent chemical intermediate for organic synthesis, finding significant use in the production of OLED materials and other sophisticated electronic chemicals.
Reliable Sourcing
Count on us for a consistent and dependable supply of this essential phenylmethyl allo furanose intermediate, ensuring your production schedules are met.
Key Applications
OLED Material Development
Utilize this high-quality intermediate to synthesize advanced materials for the burgeoning OLED display and lighting industry, leveraging its unique structural properties.
Organic Synthesis Building Block
Integrate this versatile compound into complex molecular structures as a fundamental building block, enabling the creation of novel organic molecules.
Electronic Chemical Manufacturing
Benefit from a reliable source of this critical electronic chemical raw material, crucial for the production of next-generation electronic components.
Pharmaceutical Research
Explore its potential as a pharmaceutical intermediate, contributing to the synthesis of new therapeutic agents and diagnostic reagents.