For researchers and scientists working in the field of organic chemistry and material science, understanding the properties and applications of specific chemical compounds is fundamental. One such compound gaining attention is identified by CAS number 1257220-44-2, chemically known as 7-bromo-12,12-dimethyl-10-phenyl-10,12-dihydroindeno[2,1-b]carbazole. This complex molecule serves as a valuable intermediate in various synthetic pathways.

The compound, characterized by its indeno[2,1-b]carbazole core structure with bromine and phenyl substituents, boasts specific physical and chemical properties that make it attractive for targeted applications. With a molecular formula of C27H20BrN and a molecular weight of approximately 438.36 g/mol, its structure is designed for specific reactivity. While precise melting point data is often not specified for such intermediates, a predicted boiling point of around 584.2 ± 32.0 °C gives an indication of its thermal stability. Critically, it is typically supplied with a purity of 95%min, ensuring its suitability for demanding research purposes.

As an organic synthesis intermediate, CAS 1257220-44-2 is instrumental in building more complex molecular structures. Its bromine atom provides a reactive site for cross-coupling reactions, such as Suzuki, Stille, or Buchwald-Hartwig couplings, which are fundamental in modern synthetic organic chemistry. These reactions allow chemists to precisely attach other molecular fragments, leading to the creation of novel compounds with tailored properties.

Researchers often look for reliable sources when they need to buy CAS 1257220-44-2 for laboratory R&D. Identifying a reputable chemical supplier in China that offers consistent quality and competitive pricing is a strategic advantage. Information regarding its synthesis, typically involving bromination of a precursor, is also valuable for chemists looking to scale up production or understand its origin.

The applications for this compound extend into areas such as the development of advanced materials, including organic semiconductors and optoelectronic devices, owing to the extended pi-conjugation inherent in the carbazole system. Its potential as a building block in medicinal chemistry also warrants exploration, where carbazole scaffolds are known for their diverse biological activities. Therefore, access to dependable suppliers who can provide this intermediate for laboratory research is key.

In summary, understanding the chemical identity, properties, and synthetic utility of compounds like CAS 1257220-44-2 is vital for chemists. Whether you are looking to purchase this intermediate for pharmaceutical synthesis or material science innovation, ensuring you source it from a quality-focused manufacturer is paramount. We are a leading provider, offering this essential chemical with guaranteed purity and robust technical support.