N-Acetyl-2-Bromo-5-Methoxyaniline, scientifically identified by its CAS number 123027-99-6, is a compound of significant interest in the fields of organic chemistry and pharmaceutical development. This chemical intermediate possesses a distinct molecular structure that lends itself to specific reactions and applications, most notably as a precursor in the synthesis of the API Elacestrant. Understanding its chemical properties, including its formula (C9H10BrNO2) and molecular weight, is fundamental for researchers and chemists working with this substance.

The compound is typically described as a white powder, a physical characteristic that is important for identification and handling. Its chemical name, along with synonyms such as 2'-Bromo-5'-Methoxyacetanilide and N-(2-Bromo-5-Methoxyphenyl)Acetamide, helps in cross-referencing literature and ensuring accurate communication within the scientific community. The presence of bromine and methoxy groups on the aniline ring contributes to its reactivity, making it a valuable building block for constructing more complex organic molecules through various synthetic pathways like coupling reactions or functional group transformations.

The primary application of N-Acetyl-2-Bromo-5-Methoxyaniline lies in its role as a pharmaceutical intermediate. It is crucial for the synthesis of Elacestrant, a drug that has shown promise in certain therapeutic areas. Beyond this specific API, the compound can also be employed in broader scientific research, serving as a reagent in academic laboratories or for the development of novel chemical entities. Its utility spans areas like medicinal chemistry, where it can be modified to explore new drug candidates with potentially improved efficacy or reduced side effects. The meticulous application of this chemical in research and development is a testament to its versatility in organic synthesis.

For professionals in the chemical industry, accessing reliable information on the properties and applications of compounds like N-Acetyl-2-Bromo-5-Methoxyaniline is essential. The availability of detailed technical data, including spectroscopic information and reactivity profiles, aids in optimizing reaction conditions and predicting outcomes. As research in pharmaceuticals continues to advance, intermediates like this will remain vital for unlocking new therapeutic possibilities and driving innovation in healthcare. Engaging with experienced manufacturers and suppliers ensures access to not only the chemical itself but also the technical expertise needed for its effective utilization.