6-(Benzyloxy)pyridin-3-ol: A Versatile Heterocyclic Building Block
Discover the chemical potential and diverse applications of this key intermediate in modern organic synthesis.
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6-(Benzyloxy)pyridin-3-ol
6-(Benzyloxy)pyridin-3-ol, identified by CAS number 725256-57-5, stands as a critical heterocyclic compound. Its primary value lies in its utility as a versatile building block in complex organic synthesis pathways. This compound facilitates the creation of novel molecules, particularly within the pharmaceutical and advanced materials sectors, offering researchers and manufacturers a reliable starting material for their innovative projects.
- Explore the applications of 6-(Benzyloxy)pyridin-3-ol in pharmaceutical intermediates, enabling the synthesis of potentially life-saving drugs.
- Leverage its role as a key intermediate for pharmaceutical synthesis when searching for custom synthesis chemicals.
- Understand the importance of 6-phenylmethoxypyridin-3-ol applications in creating advanced chemical structures.
- Discover the advantages of sourcing high purity 6-(Benzyloxy)pyridin-3-ol with 98% purity for critical research and development.
Key Advantages
High Purity and Quality
With purity levels typically reaching 95-98%, this compound ensures reliable and reproducible results in your synthetic processes, making it a top choice when you buy 6-(Benzyloxy)pyridin-3-ol online.
Versatile Synthetic Utility
Its unique chemical structure makes it an invaluable asset for organic synthesis, serving as a foundational component for a wide array of complex organic chemistry intermediates for sale.
Reliable Supply Chain
As a sought-after material, it is readily available from reputable specialty chemical suppliers, ensuring your projects are not hampered by procurement issues.
Key Applications
Pharmaceutical Synthesis
Serves as a crucial intermediate in the development of new pharmaceutical compounds, aiding in the creation of novel drug candidates.
Organic Chemistry Research
Enables researchers to explore new synthetic routes and create complex molecular architectures for various scientific investigations.
Materials Science
Can be incorporated into the synthesis of advanced materials with specific electronic or optical properties.
Agrochemical Development
Potential use in the development of new agrochemical compounds due to its heterocyclic pyridine structure.