Chemical research is an ongoing endeavor to discover and synthesize new molecules with specific functionalities. 4-Ethyl-2-pyridinamine (CAS: 33252-32-3) has established itself as a valuable compound in this pursuit, serving as a versatile intermediate in various research applications. This white crystalline powder, known for its pyridine structure and an accessible amino group, is a key component for chemists exploring new frontiers in chemical synthesis and material development.

Understanding the Compound and its Properties

4-Ethyl-2-pyridinamine, with the molecular formula C7H10N2, is a derivative of pyridine. Its key characteristics include a melting point typically between 50-52°C and a purity level often exceeding 99%. These properties make it amenable to a wide range of chemical transformations. The presence of the electron-rich pyridine ring, coupled with the nucleophilic amino group and the ethyl substituent, allows for diverse synthetic modifications. Researchers often buy this compound for its predictable reactivity, enabling the efficient construction of complex molecular architectures.

Applications in Chemical Research

The research utility of 4-Ethyl-2-pyridinamine spans several areas:

  • Organic Synthesis: It serves as a fundamental building block for creating a wide array of organic molecules. The amine group can be readily functionalized through acylation, alkylation, or condensation reactions, leading to more complex structures.
  • Pharmaceutical R&D: As an intermediate in the synthesis of pharmaceutical compounds, it plays a role in developing novel drug candidates. Its similarity to pirlimycin, an antibiotic, suggests its potential in antimicrobial research or in creating analogues with improved properties.
  • Material Science: Pyridine derivatives can act as ligands in catalysis, as components in supramolecular chemistry, or as monomers for functional polymers. Researchers might investigate 4-Ethyl-2-pyridinamine for its potential in these areas, requiring precise specifications and reliable suppliers.
  • Agrochemical Development: The pyridine scaffold is also prevalent in agrochemicals, and this compound can serve as an intermediate for synthesizing new pesticides or plant growth regulators.

Procurement for Research Needs

For academic and industrial researchers, securing a consistent and high-quality supply of 4-Ethyl-2-pyridinamine is critical for uninterrupted progress. It is recommended to obtain a quote from reputable chemical manufacturers or suppliers, particularly those who specialize in pharmaceutical intermediates and fine chemicals. Sourcing from suppliers in China can offer competitive pricing for research quantities, ensuring that budgets are effectively managed.

In conclusion, 4-Ethyl-2-pyridinamine (CAS: 33252-32-3) is an indispensable tool for chemical researchers. Its multifaceted applications and the availability of high-purity grades from reliable manufacturers underscore its importance in driving innovation across various scientific disciplines.