In the intricate world of organic synthesis, the selection of appropriate building blocks is paramount to designing and creating complex molecules. 3-Chlorophenol, identified by its CAS number 108-43-0, is a chemical intermediate that plays a significant role in this domain. Its unique chemical structure, featuring a chlorine atom and a hydroxyl group attached to a benzene ring, provides reactive sites that are invaluable for chemists engaged in developing new compounds for a multitude of applications, from pharmaceuticals to advanced materials.

The versatility of 3-Chlorophenol as a synthetic precursor lies in its ability to undergo a variety of chemical transformations. The hydroxyl group can participate in esterification and etherification reactions, while the chlorine atom can be involved in nucleophilic substitution or cross-coupling reactions, such as those catalyzed by palladium. These reactions allow for the strategic functionalization of the aromatic ring, leading to the synthesis of a wide range of derivatives with tailored properties. For R&D scientists and product formulators, sourcing high-purity 3-Chlorophenol from a reliable manufacturer is often the first step in a successful synthesis pathway.

When seeking to buy 3-Chlorophenol for organic synthesis, chemists often prioritize materials with a high assay, typically 99% or more, to ensure reaction specificity and minimize unwanted byproducts. The price of 3-Chlorophenol can vary based on purity and volume, with bulk purchases from established suppliers often offering better value. Many research institutions and chemical companies look to purchase CAS 108-43-0 from Chinese manufacturers, who are known for their large-scale production capabilities and competitive pricing. Requesting a detailed quote for specific quantities is a standard procurement practice.

Beyond its direct use in creating new molecules, 3-Chlorophenol is also an intermediate in the production of other important chemical compounds, including certain pesticides and dyes. Its presence in a synthesis route can significantly simplify the overall process by providing a readily available functionalized aromatic core. The consistent availability of this chemical reagent from trusted suppliers ensures that research and development projects can proceed without interruption. Furthermore, for companies engaged in the production of specialty chemicals, securing a stable supply chain for intermediates like 3-Chlorophenol is a strategic advantage.

The environmental and safety considerations for handling 3-Chlorophenol are also important. As with many organic intermediates, proper handling procedures, including adequate ventilation and personal protective equipment, are necessary. Suppliers typically provide comprehensive safety data sheets (SDS) to guide users. For procurement managers, ensuring that their chosen supplier adheres to international safety and quality standards is a critical part of the vetting process. This includes verifying their ability to provide consistent product quality and reliable delivery, which are essential for any ongoing synthesis project.

In conclusion, 3-Chlorophenol (CAS 108-43-0) stands as a vital and versatile building block in organic synthesis. Its reactive functional groups and aromatic structure make it indispensable for creating a broad spectrum of complex chemical compounds. For chemists and manufacturers, sourcing this intermediate from reputable suppliers and manufacturers, particularly those offering competitive pricing for bulk purchases, is key to driving innovation and successful product development in the chemical industry.