For any chemist engaged in advanced synthesis, a thorough understanding of the physical and chemical properties of their reagents is non-negotiable. 4-Fluoro-1-acetonaphthone, known by its CAS number 316-68-7, is a compound whose characteristics lend themselves to a wide array of applications. This article explores the key physical attributes and chemical behaviors of this important molecule, essential for anyone planning to buy 4-fluoro-1-acetonaphthone.

Typically, 4-Fluoro-1-acetonaphthone presents as a white to off-white powder, a common physical form for many fine organic chemicals. This solid state is advantageous for handling, storage, and precise weighing in laboratory settings. The compound's melting point, reported to be between 33-35°C, indicates it is a relatively low-melting solid, suggesting careful temperature control might be necessary in certain processing steps.

Chemically, the molecule features a naphthalene core substituted with a fluorine atom and an acetyl group. The 4-fluoro-1-acetonaphthone properties, such as its boiling point of 167°C at 17 mmHg, provide valuable data for designing distillation and purification protocols. Furthermore, its reactivity, particularly the susceptibility of the carbonyl group to nucleophilic attack and the potential for electrophilic aromatic substitution on the naphthalene rings, makes it a versatile intermediate in organic synthesis.

The presence of the fluorine atom is particularly noteworthy. Fluorinated organic compounds often exhibit altered electronic properties, increased lipophilicity, and improved metabolic stability when incorporated into larger molecules, such as pharmaceuticals. This makes 4-Fluoro-1-acetonaphthone a valuable starting point for synthesizing targeted acetonaphthone derivatives with tailored functionalities.

When considering the 4-fluoro-1-acetonaphthone synthesis, manufacturers like NINGBO INNO PHARMCHEM CO.,LTD. focus on achieving high purity levels, often above 97%. This high purity is critical for ensuring reproducible results and minimizing unwanted side reactions in subsequent synthetic steps. Understanding these detailed 4-fluoro-1-acetonaphthone properties allows researchers to confidently integrate this compound into their synthetic strategies.

In conclusion, the physical and chemical characteristics of 4-Fluoro-1-acetonaphthone (CAS 316-68-7) define its utility as a potent chemical intermediate. From its solid form and melting point to its specific reactivity profile, each property contributes to its value in research and industry. NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to supplying this essential chemical, empowering scientific innovation.