3,5-Dihydroxybenzonitrile (CAS 19179-36-3): A Versatile Fine Chemical Intermediate
Discover the essential role of 3,5-Dihydroxybenzonitrile in advanced chemical synthesis and product development.
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3,5-Dihydroxybenzonitrile
As a key fine chemical intermediate, 3,5-Dihydroxybenzonitrile (CAS 19179-36-3) is instrumental in the synthesis of more complex molecules, particularly in the pharmaceutical and cosmetic industries. Its unique structure allows for targeted chemical modifications.
- Explore the diverse 3,5-Dihydroxybenzonitrile uses in creating advanced organic compounds.
- Learn about the critical 5-Cyanoresorcinol synthesis pathways facilitated by this intermediate.
- Understand how the alpha-Resorcylonitrile structure contributes to specific reaction outcomes.
- Investigate the 3,5-Dihydroxybenzonitrile chemical properties that make it a preferred building block.
Key Advantages
Synthesis Versatility
Leverage the reactivity of 3,5-Dihydroxybenzonitrile for efficient 5-Cyanoresorcinol synthesis and other complex organic transformations.
Purity and Quality
With a standard purity of 98%, this chemical ensures reliable results in your synthesis processes, contributing to higher yields and product quality for buy 3,5-Dihydroxybenzonitrile customers.
Broad Applicability
The CAS 19179-36-3 applications extend to pharmaceuticals, fine chemicals, and potentially emerging cosmetic formulations, offering significant market potential.
Key Applications
Pharmaceutical Intermediates
As a crucial pharmaceutical intermediate, it aids in the development of new drug candidates by providing a foundational structure for complex molecule assembly.
Cosmetic Ingredients
The potential for 3,5-Dihydroxybenzonitrile uses in cosmetics points to its utility in formulations requiring specific phenolic or nitrile functionalities.
Organic Synthesis
Its role in chemical synthesis, particularly in preparing derivatives like 3-hydroxy-5-methoxybenzonitrile, underscores its value for researchers and manufacturers.
Material Science Research
Exploring the chemical properties of 3,5-Dihydroxybenzonitrile can lead to novel materials with tailored performance characteristics.