Dibromothiophene, identified by its CAS number 3140-93-0, is a pivotal compound in the realm of organic chemistry. As a highly versatile organic intermediate, it serves as a fundamental building block for a myriad of complex synthesis processes. Its molecular structure, C4H2Br2S, and its characteristic clear yellow liquid appearance make it easily recognizable and handled within laboratory and industrial settings.

The significance of dibromothiophene as an organic synthesis intermediate cannot be overstated. Researchers and chemists frequently employ it in various coupling reactions and functionalization strategies. Its predictable reactivity allows for precise control over the molecular architecture, facilitating the development of novel compounds with tailored properties. Whether you are looking to buy dibromothiophene for academic research or industrial production, understanding its role as a key synthesis component is crucial.

For those seeking to enhance their product lines or explore new material functionalities, dibromothiophene offers substantial benefits. Its utility as an advanced material precursor is well-documented, particularly in the fields of organic electronics and polymer science. The compound's structure allows for its incorporation into conjugated systems, contributing to enhanced conductivity and optical properties. This makes it an attractive option for manufacturers aiming to produce cutting-edge materials for applications such as organic light-emitting diodes (OLEDs) and organic photovoltaics.

When considering sourcing this chemical, looking for a reliable supplier in China can provide cost-effective solutions without compromising on quality. The price of dibromothiophene can vary based on purity and quantity, but its widespread availability from reputable chemical manufacturers ensures accessibility for diverse project needs. Whether for large-scale industrial synthesis or specialized research applications, dibromothiophene remains a cornerstone chemical.

In conclusion, dibromothiophene (CAS 3140-93-0) is more than just a chemical compound; it is an enabler of innovation. Its role as a crucial organic synthesis intermediate and an advanced material precursor solidifies its importance in modern chemical research and manufacturing. By understanding its properties and applications, professionals can effectively leverage this compound to achieve groundbreaking results in their respective fields.