The pharmaceutical industry is in constant pursuit of novel therapeutic agents that offer improved efficacy and safety. At the core of this endeavor lies medicinal chemistry, where the synthesis of complex organic molecules with specific biological activities is paramount. Key to this process is the availability of versatile chemical intermediates that allow for precise molecular construction. 3-Bromo-2-iodothiophene (CAS: 60404-24-2) stands out as a significant building block, empowering the creation of new drug candidates and active pharmaceutical ingredients (APIs).

As a supplier committed to the pharmaceutical R&D sector, we recognize the critical role of high-purity intermediates like 3-Bromo-2-iodothiophene. Its unique structural features enable a wide range of synthetic transformations, crucial for exploring diverse chemical spaces in drug discovery.

Why is 3-Bromo-2-iodothiophene a Valuable Pharmaceutical Intermediate?

The thiophene ring itself is a well-established scaffold in medicinal chemistry. It often serves as a bioisostere for phenyl rings, offering modified electronic properties and metabolic stability. The presence of both bromine and iodine atoms on this thiophene core in 3-Bromo-2-iodothiophene provides exceptional synthetic flexibility:

  • Regioselective Functionalization: The differential reactivity between the C-I and C-Br bonds allows chemists to selectively introduce substituents at specific positions on the thiophene ring. This is invaluable for building complex molecular architectures where precise placement of functional groups is essential for target interaction and pharmacokinetic properties. For example, the more reactive iodine can be selectively replaced via cross-coupling reactions, followed by subsequent modification at the bromine site.
  • Building Complex Heterocyclic Systems: This intermediate can be used to synthesize more elaborate fused heterocyclic systems, such as thienothiophenes or thienopyrimidines, which are prevalent in many drug molecules. These fused systems can offer unique binding interactions with biological targets.
  • Introduction of Diverse Functional Groups: Through organometallic chemistry and cross-coupling reactions, a wide array of functional groups—including aryl, alkyl, alkynyl, and heteroatom-containing moieties—can be appended to the thiophene core. This allows medicinal chemists to systematically explore structure-activity relationships (SAR) and optimize drug properties like potency, selectivity, and bioavailability.

Applications in Drug Discovery and Development:

The utility of 3-Bromo-2-iodothiophene is evident across various stages of drug discovery:

  • Lead Compound Generation: Its versatility makes it an excellent starting point for generating diverse compound libraries. These libraries are screened for initial biological activity against disease targets.
  • Structure-Activity Relationship (SAR) Studies: The ability to selectively modify positions on the thiophene ring allows for systematic SAR studies, helping researchers understand how structural changes impact biological activity and fine-tune lead compounds.
  • Synthesis of APIs: For established drug candidates featuring a thiophene motif, 3-Bromo-2-iodothiophene can be a key intermediate in their large-scale synthesis, ensuring efficient production of the active pharmaceutical ingredient.

Procurement Advantages:

When sourcing 3-Bromo-2-iodothiophene for pharmaceutical R&D, several factors are crucial. As a leading manufacturer in China, we offer high-purity material (97%+), essential for reliable synthesis. Our ability to provide consistent quality, coupled with competitive pricing, makes us an ideal partner for pharmaceutical companies looking to buy this intermediate. Furthermore, our custom synthesis capabilities can accommodate specific project needs, ensuring you have the exact material required for your drug development pipeline.

In conclusion, 3-Bromo-2-iodothiophene is a cornerstone intermediate in modern pharmaceutical synthesis. Its regioselective reactivity and versatility in building complex heterocyclic structures make it indispensable for discovering and developing new medicines. We are dedicated to supporting the pharmaceutical industry by providing this critical compound with the highest standards of quality and reliability.