2-Butyl-1-octanol: A Versatile C12 Primary Alcohol for Organic Synthesis and Material Science
Explore the diverse applications and properties of this key organic intermediate.
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2-Butyl-1-octanol
2-Butyl-1-octanol, identified by CAS number 3913-02-8, is a C12 branched primary alcohol with significant utility across various chemical disciplines. Its unique structure makes it an invaluable precursor in organic synthesis and a key component in the development of advanced materials.
- Unlock new possibilities in organic synthesis: Leverage 2-Butyl-1-octanol as a crucial building block for creating complex molecules.
- Enhance material properties: Utilize 2-butyl-1-octanol in the synthesis of hydrophobic polyesters, improving water resistance.
- Explore chemical intermediate roles: Discover the versatility of 2-butyl-1-octanol as an extraction solvent in specialized experiments.
- Understand natural occurrences: Learn about the presence of 2-butyl-1-octanol as a metabolite in human cancer cells and in certain food sources like grapes.
Key Advantages
Synthetic Versatility
As a primary alcohol intermediate, 2-Butyl-1-octanol is highly adaptable for a range of synthetic pathways, enabling the creation of monomers and other fine chemicals.
Material Performance
Its application in synthesizing hydrophobic polyesters demonstrates its capability to impart desirable physical properties to finished materials, a critical aspect for hydrophobic polyester synthesis.
Biochemical Relevance
The identification of 2-butyl-1-octanol as a metabolite in human cancer cells offers intriguing avenues for biochemical research and understanding cellular processes, aligning with 2-butyl-1-octanol metabolite studies.
Key Applications
Organic Synthesis
Serves as a vital precursor for synthesizing specialty monomers and intermediates, crucial for advancements in chemical manufacturing.
Material Science
Essential in the production of advanced polymers, particularly hydrophobic polyesters, contributing to the development of durable and water-resistant materials.
Extraction Processes
Utilized as an effective extraction solvent in specialized experimental setups, showcasing its utility beyond direct synthesis.
Biochemical Research
Its presence as a metabolite in human cells opens doors for research into cellular metabolism and potential biomarkers.