In the competitive landscape of chemical procurement, making informed decisions about sourcing essential intermediates is key to project success. 3,6-Dibromophenanthrene (CAS 174735-02-5) is a compound that consistently features in the synthesis of advanced materials and complex organic molecules. For procurement managers and chemists, understanding its characteristics and the best ways to buy it is vital.

Understanding 3,6-Dibromophenanthrene: Properties and Synthesis

3,6-Dibromophenanthrene is a dibrominated derivative of phenanthrene, a polycyclic aromatic hydrocarbon. Its molecular structure, C14H8Br2, with bromine atoms at the 3 and 6 positions, dictates its reactivity. It is typically supplied as a solid, with a molecular weight of 336.02 g/mol. High purity, often 97% or more, is a critical specification for most users, particularly in sensitive applications like organic electronics or pharmaceutical synthesis.

The synthesis of 3,6-Dibromophenanthrene involves precise chemical reactions, most commonly the direct bromination of phenanthrene. Manufacturers employ optimized protocols using bromine and various solvents, such as nitrobenzene or acetic acid, sometimes with catalysts, to achieve the desired substitution pattern. The efficiency and selectivity of these synthesis routes directly impact the availability and 3,6-dibromophenanthrene price.

Key Applications Driving Demand

The utility of 3,6-Dibromophenanthrene is anchored in its versatility as a chemical intermediate:

  • Material Science: It is a foundational component for synthesizing conjugated polymers and molecules used in organic electronic devices, such as organic light-emitting diodes (OLEDs), organic field-effect transistors (OFETs), and organic photovoltaics (OPVs). The ability to introduce functional groups via cross-coupling reactions allows for fine-tuning of electronic and optical properties.
  • Organic Synthesis: It serves as a reactive building block in complex synthesis pathways, enabling the creation of polycyclic aromatic hydrocarbon (PAH) derivatives, macrocycles, and other sophisticated organic structures.
  • Pharmaceutical Research: Its structure can be incorporated into potential drug candidates or used as an intermediate in the synthesis of active pharmaceutical ingredients (APIs), leveraging its reactivity in medicinal chemistry transformations.

When you need to buy 3,6-dibromophenanthrene, consider the scale of your needs. Manufacturers can often supply this chemical in quantities ranging from grams for research to kilograms or tons for industrial production.

Procurement Strategies: Navigating the Supply Chain

For effective procurement of 3,6-Dibromophenanthrene, several factors are important:

  • Supplier Selection: Partner with reputable chemical manufacturers and distributors. For global buyers, identifying a reliable supplier in China can provide access to competitive pricing and a wide range of production capabilities.
  • Quality Verification: Always request a Certificate of Analysis (CoA) from the manufacturer to confirm the purity and specifications of the chemical. This is crucial for ensuring your synthesis runs smoothly and yields reliable results.
  • Logistics and Lead Times: Understand the shipping times and availability from your chosen supplier, especially if you have tight project deadlines.
  • Cost Analysis: Compare quotes from multiple suppliers, considering not just the per-unit price but also shipping costs, lead times, and minimum order quantities.

Conclusion

3,6-Dibromophenanthrene is a critical intermediate for industries focused on advanced materials and complex organic synthesis. Its well-defined synthesis routes and versatile reactivity make it an indispensable component for innovation. By adopting a strategic approach to sourcing, focusing on quality, reliability, and cost-effectiveness, procurement professionals can ensure the successful acquisition of this essential chemical, thereby supporting their organization's R&D and manufacturing goals.