In the realm of fine chemicals, understanding the intrinsic properties and versatile applications of compounds is key to unlocking their full potential. This article focuses on C9H9Br, specifically (E)-(3-Bromoprop-1-en-1-yl)benzene (CAS 26146-77-0), exploring its chemical characteristics and how these translate into valuable applications for various industries. For chemists and manufacturers, knowing where to buy high-quality C9H9Br is essential.

Chemical Profile of C9H9Br

The molecular formula C9H9Br denotes a molecule with nine carbon atoms, nine hydrogen atoms, and one bromine atom. The specific designation '(E)-(3-Bromoprop-1-en-1-yl)benzene' provides critical structural information:

  • Phenyl Group: A benzene ring forms the core aromatic structure.
  • Propene Chain: A three-carbon chain with a double bond.
  • Bromine Atom: Attached to the terminal carbon of the propene chain.
  • '(E)' Configuration: This indicates a trans arrangement of substituents across the double bond, which is crucial for its reactivity and subsequent reactions.

The presence of the bromine atom makes this compound susceptible to nucleophilic substitution reactions. The double bond can undergo addition reactions, and the aromatic ring itself can participate in electrophilic aromatic substitution under appropriate conditions. These reactive sites are what make C9H9Br a valuable intermediate in organic synthesis.

Applications Driven by Chemical Reactivity

The unique chemical properties of C9H9Br lend themselves to a range of applications:

  • Organic Synthesis: It serves as a versatile building block for constructing complex organic molecules. Researchers often use it in coupling reactions, such as the Heck reaction, to form new carbon-carbon bonds.
  • Pharmaceutical Development: As an intermediate, it can be modified to create pharmacologically active compounds, contributing to the development of new drugs.
  • Materials Science: Its structure might be integrated into polymers or other advanced materials, potentially imparting specific physical or chemical properties.
  • Custom Synthesis: Its reactivity makes it an ideal starting material for custom synthesis projects, allowing for tailored molecular designs.

Sourcing C9H9Br: Partnering with Manufacturers

When looking to buy C9H9Br, it’s vital to source from reputable manufacturers and suppliers. Key considerations include ensuring the specified purity (e.g., 99%) and confirming the correct (E) stereochemistry. Manufacturers specializing in fine chemical intermediates typically offer detailed technical data, including NMR and GC-MS reports, to verify product quality. For those seeking to purchase this compound, engaging with suppliers that provide consistent quality and reliable delivery is paramount for successful R&D and production cycles.

By understanding the chemical properties of C9H9Br, scientists and procurement professionals can better leverage this compound in their synthetic strategies, ensuring efficiency and innovation in their respective fields.