O-Xylene, bearing the CAS number 95-47-6, is a fundamental aromatic hydrocarbon with a distinct chemical structure that lends itself to a wide array of industrial applications, particularly in chemical synthesis. For R&D scientists and formulation chemists, a deep understanding of its properties is key to unlocking its full potential.

As a high-purity chemical, O-Xylene (ortho-xylene) is characterized by its benzene ring with two methyl groups positioned adjacent to each other. This structure confers specific reactivity that makes it an invaluable organic intermediate. Its physical properties include a colorless liquid appearance, a characteristic aromatic odor, and a boiling point around 144°C. These attributes make it suitable for use as a solvent, but its primary value lies in its role as a chemical building block.

In chemical synthesis, O-Xylene is most notably used as a precursor for phthalic anhydride. This conversion process is fundamental to the production of a vast range of products, including plasticizers used in PVC, polyester resins for paints and coatings, and various dyes. The efficiency and success of this synthesis heavily rely on the purity of the O-Xylene used. Manufacturers often seek 'o-xylene pharmaceutical intermediate' grade for applications requiring even higher levels of purity and traceability.

When procurement managers look to buy O-Xylene, they are not just buying a solvent; they are investing in a critical raw material that impacts numerous manufacturing processes. Sourcing from a reliable supplier that can provide technical data sheets and certificates of analysis is crucial. Understanding the 'o-xylene price' in relation to its purity and intended application helps in making informed purchasing decisions.

The versatility of O-Xylene extends to its use in the production of certain dyes and as a component in complex organic syntheses. For any chemical synthesis project, having access to a dependable 'o-xylene manufacturer' ensures that the foundational material meets the rigorous demands of modern chemical production. By leveraging the unique properties of O-Xylene, industries can continue to innovate and develop new materials and products.