4-Phenyl-1-butanol CAS 3360-41-6: Properties, Uses, and Applications in Fine Chemistry
Explore the essential properties and diverse applications of this key organic synthesis intermediate.
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4-Phenyl-1-butanol
4-Phenyl-1-butanol (CAS 3360-41-6) is a valuable fine chemical with a colorless liquid appearance. Its core utility lies in its role as a reagent and intermediate in various chemical synthesis pathways, particularly in the pharmaceutical and specialty chemical sectors. This compound is instrumental in the synthesis of complex molecules, showcasing its versatility in advanced organic chemistry applications.
- Discover the critical 4-phenylbutanol applications in creating complex organic molecules, essential for pharmaceutical development.
- Understand the detailed CAS 3360-41-6 chemical properties, including its molecular formula and weight, vital for precise synthesis.
- Leverage its utility as a reagent in organic synthesis, a cornerstone for developing novel chemical compounds.
- Explore its function as a pharmaceutical intermediate, facilitating the production of active pharmaceutical ingredients.
Key Advantages
Versatile Intermediate
As a key fine chemical synthesis applications tool, 4-phenyl-1-butanol enables the creation of diverse end-products, from specialized materials to advanced pharmaceutical compounds.
Pharmaceutical Relevance
The 4-phenylbutanol uses extend to pharmaceutical research and production, serving as a crucial building block for potential drug candidates and treatments.
Reliable Supply
With established 4-phenyl-1-butanol synthesis methods and a network of suppliers, obtaining this compound for your research and production needs is streamlined.
Key Applications
Organic Synthesis
Utilize 4-phenyl-1-butanol as a key reagent in various organic synthesis reactions, facilitating the construction of intricate molecular architectures.
Pharmaceutical Intermediate
Its role as a pharmaceutical intermediate chemical is critical in the development of new drugs and therapeutic agents.
Chemical Research
Researchers frequently employ 4-phenyl-1-butanol in laboratory settings to explore new chemical reactions and properties, contributing to advancements in chemical sciences.
Material Science
The compound's structure makes it suitable for certain applications in material science, where specific molecular properties are required.