The field of organic chemistry is continually seeking versatile building blocks that can unlock new synthetic pathways and lead to innovative products. 4-Piperidinemethanol (CAS 6457-49-4) is a prime example of such a compound, offering a rich platform for research and development across various chemical sectors. Its unique heterocyclic structure makes it a valuable asset for scientists aiming to synthesize complex molecules, whether for pharmaceutical discovery, agrochemical development, or advanced materials research.

Chemical Profile of 4-Piperidinemethanol

With the CAS number 6457-49-4 and molecular formula C6H13NO, 4-Piperidinemethanol presents a compelling chemical profile. It is typically supplied as a white powder, indicating good handling characteristics. The compound boasts a high purity, often exceeding 97%, which is crucial for precise chemical reactions where unwanted side products can derail experiments. Key physical properties, such as a melting point of 55-59 °C and a boiling point of 118-120 °C at 10 mmHg, provide essential data for chemists planning reaction conditions and purification strategies. Its solubility in water further enhances its utility in various solvent systems commonly used in laboratory settings.

Applications in Research and Development

For researchers, the ability to buy 4-Piperidinemethanol is an opportunity to access a versatile tool for chemical synthesis. Its primary role as a pharmaceutical intermediate is well-established, serving as a precursor in the creation of numerous APIs. However, its potential extends beyond this. The piperidine ring is a common motif in many biologically active molecules, and the appended hydroxymethyl group offers a convenient handle for further functionalization. This makes it ideal for:

  • Drug Discovery: Synthesizing libraries of compounds for screening against various biological targets.
  • Agrochemical Research: Exploring novel structures for crop protection agents.
  • Materials Science: Investigating its derivatives for potential applications in polymer chemistry or specialized coatings.
  • Organic Synthesis Method Development: Serving as a model substrate for testing new catalytic systems or reaction conditions.

When embarking on R&D projects, researchers often seek to purchase this compound from reliable manufacturers or suppliers. Understanding that consistency in quality and availability are paramount for research continuity, partnering with trusted sources is key.

Ensuring Quality and Availability for Your Research Needs

The availability of high-quality 4-Piperidinemethanol from a dependable supplier is critical for the success of R&D endeavors. When you inquire about this chemical, consider the supplier's commitment to quality control, their documentation practices (e.g., providing Certificates of Analysis), and their ability to supply quantities suitable for laboratory work. Many companies also offer custom synthesis services, which can be invaluable if specific derivatives or higher quantities are required for advanced research.

The price of 4-Piperidinemethanol can vary depending on the supplier, quantity, and purity. However, for research purposes, investing in a high-purity product from a reputable source often proves more cost-effective in the long run by minimizing experimental failures. Obtaining a quote from several established chemical providers is a good practice to ensure you are getting competitive pricing without compromising on quality.

In summary, 4-Piperidinemethanol (CAS 6457-49-4) is a compound of significant interest to the scientific community. Its well-defined chemical properties and its versatility as a building block make it an indispensable reagent for researchers across various disciplines. By sourcing this compound from reliable manufacturers and suppliers, scientists can confidently advance their projects and contribute to the ongoing evolution of chemical science.