The field of organic synthesis is constantly pushing the boundaries of material science, enabling the creation of novel compounds with tailored functionalities for diverse applications. 4-Bromo-4-N-Pentylbiphenyl (CAS 63619-59-0) stands out as a valuable intermediate in this domain, offering chemists a versatile platform for constructing complex organic molecules. Its utility extends beyond traditional OLED and liquid crystal applications into broader areas of advanced materials research. This article highlights its role in contemporary organic synthesis and advises on sourcing this key chemical.

A Versatile Building Block in Organic Chemistry

The chemical structure of 4-Bromo-4-N-Pentylbiphenyl, featuring a biphenyl core substituted with a bromine atom and a pentyl chain, makes it highly amenable to various cross-coupling reactions. These reactions are foundational in modern organic synthesis:

  • Suzuki-Miyaura Coupling: The bromine atom can be readily coupled with organoboron compounds (boronic acids or esters) in the presence of a palladium catalyst. This allows for the introduction of aryl or heteroaryl groups, extending the pi-conjugated system, which is critical for optoelectronic materials.
  • Stille Coupling: Reaction with organotin compounds provides another pathway to C-C bond formation, enabling the synthesis of intricate molecular architectures.
  • Buchwald-Hartwig Amination: The bromine can be replaced by amine groups, facilitating the synthesis of organic semiconductors and charge-transport materials used in various electronic devices.
  • Heck Reaction: Coupling with alkenes can introduce vinyl groups, further diversifying the molecular structure.

The pentyl chain adds solubility and influences the mesomorphic properties, making it useful for liquid crystal research. For researchers looking to buy 4-Bromo-4-N-Pentylbiphenyl for these advanced synthesis routes, ensuring high purity (e.g., 99% min) is essential to achieve clean reactions and desired product yields.

Sourcing for Research and Development

When embarking on new synthesis projects, securing a reliable supply of intermediates like 4-Bromo-4-N-Pentylbiphenyl is critical. Researchers should:

  • Verify Purity: Always check the CoA for purity levels and impurity profiles.
  • Consider Scalability: If a project shows promise, understand the supplier's capability to provide larger quantities if needed for scale-up.
  • Compare Suppliers: Obtain quotes from various chemical manufacturers, especially those specializing in organic intermediates and electronic materials in China, to find the best balance of quality and price.

By understanding the synthetic versatility of 4-Bromo-4-N-Pentylbiphenyl and partnering with trustworthy chemical manufacturers, researchers can efficiently develop next-generation organic materials. If you need this intermediate for your R&D efforts, consider reaching out to established chemical suppliers for quotes and samples.