In the dynamic field of organic synthesis, the availability of well-characterized chemical intermediates is fundamental to scientific advancement and industrial innovation. 4-[2-(Methylamino)ethyl]phenol Hydrochloride, bearing the CAS number 13062-76-5, stands out as a compound with versatile utility in various synthesis pathways. This article offers insights into its applications and guides professionals on how to source it effectively.

Understanding the Compound's Utility

4-[2-(Methylamino)ethyl]phenol Hydrochloride is valued for its specific molecular structure, which includes a phenolic hydroxyl group and a secondary amine in a side chain. This makes it an attractive starting material or intermediate for synthesizing a range of more complex organic molecules. Its applications span from serving as a pharmaceutical intermediate, potentially influencing physiological processes like pancreatic secretion, to being used in research for developing novel chemical entities. For synthetic chemists, the ability to reliably buy this compound with consistent purity (typically 97% minimum) is crucial for reproducible results.

Strategic Sourcing for Synthesis Projects

When embarking on a synthesis project requiring 4-[2-(Methylamino)ethyl]phenol Hydrochloride, the sourcing strategy is as important as the reaction design itself. Here’s what procurement specialists and researchers should consider:

  • Manufacturer Identification: The first step is to identify reliable chemical manufacturers. Companies that specialize in fine chemicals and pharmaceutical intermediates are often the best sources. Looking for suppliers with a strong presence in global markets, such as those in China, can provide access to a wide range of products and competitive prices.
  • Product Quality Assurance: Prioritize suppliers who can provide detailed product specifications, including CAS number, molecular formula, molecular weight, and purity analysis (e.g., via HPLC or GC). A Certificate of Analysis (CoA) is indispensable for confirming product quality.
  • Requesting Quotes and Samples: Obtain multiple quotes to compare pricing and understand market rates. Requesting small samples allows for laboratory validation of the compound's suitability for your specific synthetic route before committing to larger quantities.
  • Supply Chain Reliability: Evaluate a supplier's capacity to deliver consistently and on time. Understanding lead times, shipping options, and packaging protocols is vital for project planning.
  • Technical Support: Engage with suppliers who can offer technical support or product information, which can be invaluable during the research and development phases.

The success of many chemical synthesis projects hinges on the quality and availability of key starting materials. By diligently researching and selecting reputable manufacturers and suppliers for 4-[2-(Methylamino)ethyl]phenol Hydrochloride, chemists can ensure the efficiency and integrity of their work. Partnering with a trusted entity allows you to confidently purchase the necessary materials to drive innovation in chemical synthesis.