In the intricate world of organic chemistry, the ability to precisely control molecular construction is paramount. Certain chemical intermediates act as linchpins, enabling chemists to build complex structures efficiently and with high selectivity. 1,3-Dibromo-5-fluorobenzene (CAS 1435-51-4) is one such indispensable compound, widely recognized for its versatility in advanced organic synthesis. As a manufacturer, we understand the critical role this molecule plays in driving innovation across various sectors, from pharmaceuticals to advanced materials.

The Chemical Foundation: Reactivity and Structure

1,3-Dibromo-5-fluorobenzene is an aromatic compound featuring a benzene ring adorned with two bromine atoms at the 1 and 3 positions, and a fluorine atom at the 5 position. This specific substitution pattern is the source of its synthetic power. The carbon-bromine bonds are readily activated for a multitude of transition-metal catalyzed cross-coupling reactions. These reactions allow for the selective introduction of various organic fragments, such as aryl, alkenyl, or alkynyl groups, at the positions previously occupied by bromine atoms.

The presence of the fluorine atom is also noteworthy. Fluorine substituents can significantly alter the electronic and physical properties of organic molecules. In the context of 1,3-Dibromo-5-fluorobenzene, the fluorine atom influences the reactivity of the neighboring positions and can impart desirable characteristics to the final product, such as:

  • Electron-withdrawing effects: Modifying the electron density of the aromatic ring, impacting its reactivity in electrophilic or nucleophilic substitution reactions.
  • Steric considerations: Influencing molecular conformation and interactions.
  • Improved metabolic stability and lipophilicity: Especially relevant in pharmaceutical applications.

Synthetic Pathways Empowered by 1,3-Dibromo-5-fluorobenzene

Our customers utilize 1,3-Dibromo-5-fluorobenzene in a wide array of synthetic transformations. Some of the most prominent include:

  • Suzuki-Miyaura Coupling: Reacting with boronic acids or esters to form new carbon-carbon bonds, crucial for constructing biaryl systems found in pharmaceuticals and organic electronic materials. The two bromine atoms allow for sequential or dual coupling reactions.
  • Heck Reaction: Coupling with alkenes to form substituted styrenes or related compounds.
  • Sonogashira Coupling: Reacting with terminal alkynes to introduce alkyne functionalities, important for conjugated systems and materials.
  • Buchwald-Hartwig Amination: Formation of carbon-nitrogen bonds by coupling with amines, a common strategy in drug synthesis.

The ability to perform these reactions selectively, often controlling which bromine atom reacts first or performing a double coupling, provides synthetic chemists with exceptional control over molecular architecture. This makes 1,3-Dibromo-5-fluorobenzene a highly efficient building block for creating complex, functionalized molecules.

Sourcing High-Quality Intermediates from China

As a leading manufacturer of fine chemicals, we are dedicated to providing 1,3-Dibromo-5-fluorobenzene with exceptional purity (typically ≥98%) and consistent quality. When you choose to buy from us, you benefit from:

  • Advanced Synthesis Capabilities: Our state-of-the-art facilities and experienced chemists ensure reliable production.
  • Strict Quality Control: Every batch undergoes rigorous testing to meet stringent specifications.
  • Competitive Pricing: Leveraging economies of scale, we offer cost-effective solutions without compromising quality.
  • Reliable Supply: We are a trusted supplier capable of meeting demands from gram-scale research to multi-ton industrial production.

For any researcher or industrial chemist engaged in demanding organic synthesis, 1,3-Dibromo-5-fluorobenzene (CAS 1435-51-4) is an invaluable tool. We encourage you to contact us to inquire about price and availability, and to discuss how our high-quality intermediate can facilitate your next groundbreaking project.