9-Iodo-1-nonanol: A Versatile Organic Synthesis Intermediate
Unlock advanced synthesis possibilities with this high-purity, chain-extended iodo-alcohol intermediate.
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9-Iodo-1-nonanol
9-Iodo-1-nonanol, identified by CAS number 76334-30-0, is a critical building block in organic synthesis. Its unique structure, featuring both a terminal iodine atom and a hydroxyl group separated by a nine-carbon chain, makes it highly versatile for a range of chemical transformations and the creation of complex molecules.
- Explore the diverse 9-iodononan-1-ol applications in complex organic synthesis projects.
- Discover the key 9-iodo-1-nonanol chemical properties that make it ideal for various reactions.
- Learn about the efficient synthesis of 9-iodo-1-nonanol from common precursors.
- Find reliable 9-iodo-1-nonanol suppliers in China and globally for your procurement needs.
Key Advantages Provided
Versatile Reactivity
The terminal iodine atom in 9-iodo-1-nonanol offers excellent reactivity for nucleophilic substitution and coupling reactions, facilitating the introduction of various functional groups. Understanding its 9-iodo-1-nonanol chemical properties is crucial for optimizing synthetic routes.
Chain Extension Capabilities
As a C9 chain intermediate, it's perfect for building longer carbon chains, essential for synthesizing specialized polymers, surfactants, or bioactive compounds. Many researchers seek to purchase 9-iodononan-1-ol for these specific applications.
High Purity and Consistency
Typically supplied with high assay percentages, this compound ensures reliable and reproducible results in demanding laboratory settings and industrial processes, a key factor when considering 9-iodo-1-nonanol price versus quality.
Key Applications
Organic Synthesis
Serving as a fundamental building block, 9-iodo-1-nonanol is indispensable for constructing carbon frameworks in pharmaceuticals, agrochemicals, and materials science. Its role as a 9-iodo-1-nonanol synthesis intermediate is widely recognized.
Pharmaceutical Intermediates
Used in the multi-step synthesis of complex drug molecules, where precise chain length and functional group placement are critical for biological activity.
Materials Science
Incorporated into the synthesis of specialized polymers, surfactants, and functional materials requiring long hydrophobic chains with reactive end groups.
Research and Development
A staple reagent in academic and industrial R&D labs for exploring new reaction methodologies and creating novel chemical entities.