In the realm of organic chemistry, specific molecules serve as linchpins for creating more complex and functional compounds. 5-Bromonaphthalen-1-amine (CAS 4766-33-0) stands out as one such versatile intermediate, prized for its utility in pharmaceutical development and advanced material research. Understanding its chemical nature and application potential is key for scientists and procurement specialists seeking to leverage its capabilities.

Chemical Profile and Synthesis

5-Bromonaphthalen-1-amine is characterized by its naphthalene backbone, functionalized with both a bromine atom and an amine group. This dual functionality offers multiple reactive sites for chemists. The presence of the bromine atom makes it amenable to various cross-coupling reactions, such as Suzuki or Buchwald-Hartwig couplings, enabling the introduction of diverse substituents. The amine group can participate in reactions like acylation, alkylation, or diazotization, further expanding its synthetic utility. Its synthesis typically involves the reduction of its nitro precursor, 5-bromo-1-nitronaphthalene, often using iron powder in an acidic medium, followed by purification steps to achieve the desired purity, commonly 97% or higher. As a supplier, ensuring consistent purity is a core focus.

Key Applications in Research and Industry

  • Pharmaceutical Intermediates: A significant application of 5-Bromonaphthalen-1-amine is its use as a building block in the synthesis of Active Pharmaceutical Ingredients (APIs). Its structure can be incorporated into drug candidates targeting various therapeutic areas. Researchers often buy this compound for drug discovery programs.
  • Organic Synthesis: Beyond pharmaceuticals, it serves as a crucial intermediate in general organic synthesis. Chemists utilize it to construct complex aromatic systems, functional materials, and specialty chemicals. The ability to purchase this from a reliable manufacturer facilitates laboratory work.
  • Material Science: The naphthalene core offers desirable electronic and optical properties, making derivatives of 5-Bromonaphthalen-1-amine potential candidates for applications in material science, such as in organic light-emitting diodes (OLEDs) or advanced polymer research.
  • Agrochemicals: While less documented, naphthalene derivatives can sometimes find applications in the agrochemical sector as intermediates for pesticides or growth regulators.

Procurement Considerations for Researchers and Buyers

For those looking to purchase 5-Bromonaphthalen-1-amine, it's important to identify suppliers who can guarantee product quality and provide necessary technical data. When you buy from a reputable manufacturer, you can expect detailed specifications, including purity, appearance, and CAS number (4766-33-0). Competitive pricing is also a key factor, especially for bulk purchases. If your research requires specific modifications or larger quantities than standard catalog items, inquire about custom synthesis services from your chosen supplier. Understanding the product's stability and recommended storage conditions is also essential for maintaining its integrity.

In conclusion, 5-Bromonaphthalen-1-amine is more than just a chemical; it's an enabler of scientific innovation. By understanding its chemistry and sourcing it from reliable manufacturers, researchers and industrial chemists can unlock its full potential in creating the next generation of pharmaceuticals and advanced materials.