In the realm of chemistry, precise identification and understanding of a compound's fundamental properties are critical for successful research, development, and industrial application. 4-Bromobenzyl Alcohol, known widely by its CAS Registry Number 873-75-6, is a prime example of a chemical intermediate whose identity and characteristics are thoroughly documented and understood by the scientific community. This article delves into the core chemical identity of 4-Bromobenzyl Alcohol, providing essential information for researchers, chemists, and procurement specialists.

The chemical identity of 4-Bromobenzyl Alcohol is established through several key identifiers. Its molecular formula is C7H7BrO, which precisely details the types and number of atoms present in each molecule. This formula immediately informs chemists about the elemental composition and potential reactivity of the compound. The molecular weight is calculated to be approximately 187.03 g/mol, a crucial piece of information for stoichiometric calculations in synthesis and for understanding physical properties influenced by mass.

The CAS number, 873-75-6, serves as a unique, unambiguous identifier for 4-Bromobenzyl Alcohol across global databases and literature. This number is crucial for avoiding confusion with similar compounds and for accurate literature searches. The IUPAC name, (4-bromophenyl)methanol, provides a systematic nomenclature that describes the molecule's structure: a methanol molecule where one hydrogen atom on the phenyl ring, at the para position (position 4), is substituted by a bromine atom. Synonyms such as p-bromobenzyl alcohol and 4-bromobenzylalcohol are also commonly used and recognized.

Further details contributing to its chemical identity include its physical form, typically a white crystalline powder or crystals, and its melting point, which falls within the range of 75-77 °C. These physical attributes are important for handling, storage, and initial processing. The solubility profile, often in organic solvents like dioxane, is also a key characteristic that dictates how the compound can be used in various reaction media. When chemists decide to buy 4-bromobenzyl alcohol, they rely on this detailed chemical identity to ensure it meets the specific requirements of their synthetic procedures.

The established synthesis routes for 4-bromobenzyl alcohol ensure its availability, making it a reliable component for chemical R&D. Companies like NINGBO INNO PHARMCHEM CO.,LTD. specialize in providing such well-characterized intermediates, reinforcing the importance of accurate chemical identification. Understanding the complete chemical identity of 4-bromobenzyl alcohol is not just an academic exercise; it is fundamental to its safe and effective utilization in advancing chemical science and industrial applications.