3-Hydroxybenzyl Alcohol, known by its CAS number 620-24-6, is a compound of significant interest within the chemical industry, particularly for its role as a versatile intermediate. Understanding its intrinsic properties and broad range of applications is key for chemists, researchers, and procurement specialists. This exploration will shed light on why this molecule is a staple in many synthesis workflows.

At its core, 3-Hydroxybenzyl Alcohol is characterized by its molecular formula C7H8O2. Physically, it typically presents as a brown powder, with a defined melting point range of 69-72 °C. Its solubility profile is also noteworthy; it exhibits slight solubility in DMSO and methanol, which are common solvents in laboratory settings. These characteristics make it amenable to various reaction conditions and purification techniques. The structural features, including both a hydroxyl group and a benzylic alcohol moiety, contribute to its reactivity and its utility in creating more complex molecular architectures.

The primary utility of 3-Hydroxybenzyl Alcohol lies in its function as a chemical intermediate. When considering the uses of 3-Hydroxybenzyl alcohol CAS 620-24-6, its role in building blocks for pharmaceuticals and specialty chemicals stands out. Researchers often seek to buy 3-Hydroxybenzyl alcohol for its ability to participate in esterification, etherification, and oxidation reactions, among others. This makes it an indispensable component in the multi-step synthesis of many valuable compounds.

Furthermore, for those looking to procure this material, understanding that it's available from a reputable 3-Hydroxybenzyl alcohol supplier free sample can be highly advantageous. This allows for a critical evaluation of the product's purity and performance before a larger investment is made. The emphasis on quality is paramount, especially when the intermediate is intended for pharmaceutical applications where stringent purity standards are non-negotiable.

In summary, 3-Hydroxybenzyl Alcohol is more than just a chemical compound; it's a gateway to innovation. Its well-defined properties and extensive applicability in organic synthesis and pharmaceutical development make it a sought-after material. By understanding its potential and securing a reliable supply, businesses can effectively advance their research and production goals.