Hexanophenone (CAS 942-92-7) is an organic compound that plays a crucial role in various industrial sectors, particularly in fine chemical manufacturing and as a precursor for pharmaceutical and material science applications. Understanding its fundamental properties, common synthesis methods, and overall industrial significance is vital for professionals involved in chemical procurement, research, and production. This article provides an in-depth look at Hexanophenone, aiming to equip buyers and researchers with essential knowledge.

Chemical and Physical Properties of Hexanophenone

Hexanophenone, also known by synonyms such as 1-Phenyl-1-hexanone or Caprophenone, possesses the molecular formula C12H16O and a molecular weight of 176.25 g/mol. It is characterized by a phenyl group attached to a carbonyl group, which is further bonded to a six-carbon alkyl chain (hexane). Typically, Hexanophenone appears as a colorless to pale yellow liquid at room temperature, with a distinct odor. Key physical properties often cited include a melting point around 25-26 °C and a boiling point of approximately 265 °C. Its density is around 0.958 g/mL at 25 °C, and its refractive index is n20/D 1.5105. These properties are important for handling, storage, and process design. When you buy Hexanophenone, these specifications are critical for ensuring it meets your application requirements.

Synthesis Routes for Hexanophenone

The synthesis of Hexanophenone can be achieved through several organic chemistry routes. A common method involves the Friedel-Crafts acylation reaction, where benzene is reacted with hexanoyl chloride in the presence of a Lewis acid catalyst, such as aluminum chloride. Another approach may involve the oxidation of precursors like 1-phenyl-1-hexanol. Manufacturers often optimize these synthesis routes to achieve high yields and purity, ensuring a consistent and cost-effective supply. For those looking to source this compound, understanding that it is readily synthesizable by established chemical manufacturers is reassuring. Enquiries about the Hexanophenone price from a reliable Hexanophenone manufacturer can reveal efficient procurement options.

Industrial Significance and Applications

The industrial significance of Hexanophenone stems from its versatility as an organic intermediate. It serves as a foundational building block in the pharmaceutical industry for the synthesis of various APIs and drug candidates. In material science, its structure is leveraged to develop specialty polymers and resins with enhanced performance characteristics, used in electronics and other advanced sectors. Furthermore, its demonstrated activity as an inhibitor of carbonyl reductase makes it a valuable compound for biochemical and pharmacological research. The availability of Hexanophenone from global suppliers, especially those in China, ensures that these diverse industries have access to this critical intermediate.

Sourcing Hexanophenone: Quality and Reliability

When procuring Hexanophenone, it is essential to partner with reputable suppliers who can guarantee quality and consistency. Looking for Hexanophenone CAS 942-92-7 from manufacturers with robust quality control systems and a commitment to reliable delivery is crucial. Whether you are looking for laboratory-scale quantities or bulk industrial supply, understanding the product specifications and the supplier's capabilities will facilitate a successful procurement process. For businesses aiming to purchase Hexanophenone, engaging with trusted B2B platforms or directly contacting manufacturers can provide access to competitive pricing and a secure supply chain.

In conclusion, Hexanophenone is a vital organic compound with well-defined properties and significant industrial applications. Its accessibility through efficient synthesis and reliable global supply chains underscores its importance in driving innovation across pharmaceuticals, material science, and research.