Dibromothiophene, with the CAS number 3140-93-0, is a chemical compound of significant interest in modern scientific research and industrial manufacturing. As a clear yellow liquid, its molecular formula C4H2Br2S and molecular weight of 241.932, coupled with a purity of 99% minimum, position it as a premier organic synthesis intermediate.

The compound’s structural features make it an exceptionally valuable heterocycle building block. Chemists utilize dibromothiophene in a multitude of reactions, enabling the construction of complex organic molecules with specific electronic and physical characteristics. This versatility is crucial for innovation in fields ranging from pharmaceuticals to materials science. For researchers and manufacturers, securing a reliable supply of this compound is often a primary consideration when planning synthesis projects.

Furthermore, dibromothiophene plays a crucial role as an advanced material precursor. Its thiophene backbone and bromine substituents allow for facile incorporation into polymer chains, leading to materials with desirable electronic conductivity and thermal stability. These advanced materials find applications in organic electronics, such as in the development of organic semiconductors for flexible displays and high-efficiency solar cells. This makes dibromothiophene a key ingredient for companies pushing the boundaries of technology.

When considering the acquisition of this chemical, understanding the price of dibromothiophene from various suppliers is important. Sourcing from a reputable manufacturer in China can offer a balance of cost-effectiveness and high quality. The availability of high-purity dibromothiophene ensures that research and production efforts can proceed with confidence, knowing that the foundational chemical components meet stringent standards.

In essence, dibromothiophene (CAS 3140-93-0) is indispensable for its dual capacity as an organic synthesis intermediate and an advanced material precursor. Its unique chemical properties and broad applicability make it a compound of choice for driving innovation across multiple scientific and industrial domains.