Understanding the molecular intricacies of chemical compounds is fundamental to unlocking their potential in various industries. One such compound, identified by its CAS number 201677-59-0, offers a fascinating glimpse into advanced organic chemistry and its practical applications. This compound, known chemically as N-[5-[(1R)-2-bromo-1-hydroxyethyl]-2-(phenylmethoxy)phenyl]formamide, is a testament to precision synthesis and holds significant value for researchers and formulators.

The molecular formula C16H16BrNO3 immediately tells us about the elemental composition, while the molecular weight of 350.21 provides a basis for stoichiometric calculations in synthesis. Visually, it is typically presented as a white powder, a common form for many stable organic compounds. The specific designation '(R)' in its name is crucial, indicating a defined stereochemical configuration at a chiral center. This enantiomeric purity is often a critical factor, especially in pharmaceutical applications where specific isomers can have vastly different biological activities or safety profiles.

Breaking down the structure further, we see key functional groups that dictate its reactivity and potential applications. The formamide group (-CONH2) is a derivative of formic acid and ammonia, often imparting solubility characteristics and serving as a reactive site in further transformations. The benzyloxy group (-OCH2C6H5) introduces a phenyl ring linked via an ether oxygen, contributing to the molecule's hydrophobic nature and potential for pi-stacking interactions. The bromo (-Br) and hydroxyethyl (-CH(OH)CH2Br) substituents are highly reactive and offer multiple points for subsequent chemical modification, making it an excellent building block for complex syntheses.

These structural features make N-[5-[(1R)-2-bromo-1-hydroxyethyl]-2-(phenylmethoxy)phenyl]formamide particularly useful as a pharmaceutical intermediate. Its designed architecture allows for its incorporation into larger molecules that may exhibit therapeutic properties. Beyond pharmaceuticals, its versatile nature also finds applications in the cosmetic industry, where specialized chemical ingredients are sought for their functional benefits and potential to create novel product formulations. Researchers and product developers can buy this compound from reputable suppliers to explore its potential in new cosmetic active ingredients or advanced material science.

As a product offered by manufacturers like NINGBO INNO PHARMCHEM CO.,LTD., this intermediate exemplifies the sophisticated chemicals available to the market. The commitment to providing high purity (98%) ensures that users can rely on its integrity for their research and development endeavors, whether for drug discovery, custom synthesis projects, or the creation of innovative cosmetic formulations. Understanding its structure is the first step to appreciating its broad applicability.