The chemical industry thrives on the versatility and utility of its core intermediates, and 2-(4-Bromophenyl)acetic acid (CAS: 1878-68-8) stands out as a prime example. While its role in pharmaceutical synthesis is well-documented, its applications extend significantly into agrochemicals and various branches of materials science and organic chemistry. Understanding these broad uses is key for researchers and procurement specialists looking to leverage this compound.

A Key Player in Agrochemical Formulations

In the agricultural sector, the development of effective and targeted crop protection agents is a constant pursuit. 2-(4-Bromophenyl)acetic acid serves as a valuable building block in the formulation of certain herbicides and pesticides. Its chemical structure can be modified to create active ingredients that target specific weeds or pests, contributing to improved crop yields and quality. The demand for innovative agrochemicals means that intermediates like 4-bromophenylacetic acid are increasingly sought after by formulators looking for reliable raw materials. Sourcing this chemical from China, a global leader in agrochemical intermediate production, can offer significant cost advantages.

Contributions to Materials Science

The unique reactivity of the bromophenyl group in 2-(4-Bromophenyl)acetic acid makes it an attractive precursor for the synthesis of specialty polymers and advanced materials. Researchers in materials science utilize it to incorporate specific functionalities into polymer chains, tailoring properties such as thermal stability, flame retardancy, or electrical conductivity. As the demand for high-performance materials grows across industries like electronics, automotive, and construction, intermediates like this one become more crucial.

Versatility in Organic Synthesis

Beyond these specific sectors, 2-(4-Bromophenyl)acetic acid is a fundamental tool in general organic synthesis. Its phenylacetic acid moiety can undergo a range of reactions, including esterification, amidation, and various coupling reactions. The presence of the bromine atom also allows for palladium-catalyzed cross-coupling reactions, such as Suzuki or Heck couplings, enabling the creation of more complex aromatic systems. This versatility makes it a staple in academic research laboratories and industrial R&D departments focused on discovering new molecules and pathways.

Procurement Considerations for Global Buyers

For businesses looking to purchase 2-(4-Bromophenyl)acetic acid, understanding the market and identifying reliable suppliers is essential. China offers a robust manufacturing base for fine chemicals. When sourcing, consider:

  • Purity Levels: Ensure the product meets the required purity for your specific application, typically 98% or higher for demanding uses.
  • Manufacturer Reputation: Partner with established manufacturers and suppliers known for their quality control and consistent product delivery.
  • Competitive Pricing: Obtain quotes from multiple suppliers to ensure you are getting the best possible price for this chemical intermediate.
  • Technical Data: Access to comprehensive technical documentation, such as Safety Data Sheets (SDS) and Certificates of Analysis (CoA), is critical for safe handling and quality verification.

By tapping into the expertise of chemical manufacturers in China, companies can secure a reliable supply of 2-(4-Bromophenyl)acetic acid, fueling innovation across agrochemicals, materials science, and beyond. Its broad utility underscores its importance as a key chemical intermediate in the global market.