For chemists and materials scientists, the availability of well-characterized intermediates is fundamental to driving innovation in organic synthesis and chemical manufacturing. N-benzyl-2-chloro-N-methyl-ethanamine, identified by CAS number 17542-47-1, is one such compound that plays a significant role as a versatile building block. Its unique chemical structure and reactivity make it a valuable component in creating complex molecules for various applications. Understanding its synthetic potential and how to procure it is essential for any R&D department or production facility.

Understanding the Chemical Makeup

N-benzyl-2-chloro-N-methyl-ethanamine, with the molecular formula C10H14ClN and a molecular weight of 183.6779, presents chemists with specific functional groups that allow for a variety of transformations. The presence of a tertiary amine and a reactive chlorine atom on an ethyl chain, attached to a benzyl group, provides multiple avenues for further chemical modification. Its physical properties, such as its density (1.056 g/cm³), boiling point (205.3°C), flash point (77.9°C), and refractive index (1.529), are important considerations for chemists when designing reaction parameters.

Synthetic Utility and Applications

The primary utility of N-benzyl-2-chloro-N-methyl-ethanamine lies in its role as an intermediate. Researchers can leverage its reactive sites to:

  • Introduce the benzyl-methylamino-ethyl moiety: This structural element can be incorporated into larger molecules to modify their properties, such as solubility, binding affinity, or biological activity.
  • Perform nucleophilic substitution reactions: The chlorine atom is susceptible to displacement by various nucleophiles, allowing for the attachment of different functional groups.
  • Utilize the tertiary amine: The amine group can act as a base, a nucleophile, or be involved in quaternization reactions.

These reactions enable the synthesis of a broad spectrum of compounds, from potential pharmaceutical candidates to advanced materials. For R&D scientists, having access to high-purity N-benzyl-2-chloro-N-methyl-ethanamine from reliable manufacturers is key to reproducible and efficient synthesis.

Procurement for Research and Industry

When looking to buy N-benzyl-2-chloro-N-methyl-ethanamine, consider partnering with suppliers who can provide not only the chemical itself but also comprehensive data and support. Sourcing from established chemical suppliers, particularly those with strong ties to manufacturers in China, ensures access to quality-assured materials at competitive prices. Understanding the required purity levels, safety data (like flash point), and typical applications will guide your purchasing decisions. Engaging with suppliers who can provide certificates of analysis and technical support empowers your R&D efforts and production planning.