For research scientists and product developers engaged in custom organic synthesis, the selection of appropriate building blocks and intermediates is fundamental to achieving desired outcomes. 8-Nonen-1-ol (CAS 13038-21-6), a versatile unsaturated alcohol, offers a unique chemical structure that can be leveraged in a myriad of synthesis projects. This article serves as a guide for those seeking to understand its potential and how to procure it effectively for their R&D needs.

The Chemical Versatility of 8-Nonen-1-ol

8-Nonen-1-ol is characterized by its nine-carbon chain with a terminal double bond and a primary alcohol group. This combination of functional groups makes it a highly reactive and adaptable molecule for organic chemists. The hydroxyl group can undergo esterification, etherification, or oxidation, while the alkene can participate in addition reactions, polymerization, or metathesis. This dual reactivity allows for the introduction of complex functionalities or the extension of carbon chains in a controlled manner.

Applications in Advanced Organic Synthesis

In custom synthesis, 8-Nonen-1-ol can be employed in several ways:

  • Synthesis of Complex Natural Products: Its structure can mimic fragments of natural compounds, aiding in total synthesis projects.
  • Development of Novel Materials: The alkene functionality can be used in polymerization reactions to create specialty polymers with unique properties.
  • Intermediate for Specialty Chemicals: It serves as a precursor for various fine chemicals, including certain pharmaceuticals, agrochemicals, and advanced materials.

Researchers often seek high-purity intermediates to ensure the success and reproducibility of their experiments. For 8-Nonen-1-ol, specifications like ≥99% purity are desirable for demanding synthesis pathways.

Procuring 8-Nonen-1-ol for R&D

When planning a custom synthesis project, the ability to reliably buy 8-Nonen-1-ol is crucial. Researchers should identify suppliers that offer:

  • High Purity: Ensure the supplier can provide documentation (like a CoA) for the specified purity.
  • Availability: Access to small to medium quantities suitable for R&D is important.
  • Technical Data: Availability of safety data sheets (SDS) and specifications is essential for safe handling and experimental planning.
  • Competitive Pricing: Even for R&D quantities, cost-effectiveness is a consideration.

Partnering with a responsive chemical supplier, potentially a manufacturer based in China known for its fine chemical production capabilities, can streamline the procurement process. This ensures that your custom synthesis projects have the necessary high-quality raw materials to proceed efficiently.