The intricate world of chemical synthesis relies on a deep understanding of molecular structures and properties. 2-(2-Pyridyl)phenol (CAS: 33421-36-2) is a fascinating organic compound that exemplifies this principle. Characterized by its unique heterocyclic structure, combining a phenol ring with an ortho-substituted pyridine ring, this molecule offers a rich platform for chemical exploration and application. For researchers and product developers, knowing its chemical makeup and synthesis routes is crucial when considering it as a material to buy.

The molecular formula of 2-(2-Pyridyl)phenol is C11H9NO, with a molecular weight of approximately 171.195 g/mol. Its structure features a hydroxyl group on the phenol ring, adjacent to the nitrogen atom of the pyridine ring. This proximity allows for intramolecular hydrogen bonding, which significantly influences its electronic properties, reactivity, and coordination behavior. Typically appearing as a yellow solid, its physical characteristics, such as a melting point of 56-57°C, facilitate its handling and purification in laboratory settings. When you engage a manufacturer for this compound, these specifications are standard indicators of quality.

Several synthesis methodologies have been developed to produce 2-(2-Pyridyl)phenol, with transition metal-catalyzed reactions being particularly prominent. One common approach involves the C-H activation and hydroxylation of 2-phenylpyridine. Catalysts like Ruthenium or Copper complexes, in conjunction with oxidants such as Oxone or molecular oxygen, are employed under elevated temperatures in organic solvents. These methods aim for high selectivity and yield, ensuring that the final product meets the high-purity standards (often 97% min) demanded by the industry. For those looking to purchase this chemical, understanding these synthesis routes can shed light on potential variations in product quality.

The versatility of 2-(2-Pyridyl)phenol extends to its role as a synthetic building block. The hydroxyl group can be readily functionalized through reactions like alkylation or acylation, while the pyridine ring can undergo various electrophilic or nucleophilic substitutions depending on reaction conditions. This makes it an attractive precursor for synthesizing more complex molecules, including pharmaceuticals, agrochemicals, and advanced materials. As a sought-after intermediate, identifying a reliable supplier that can consistently provide this compound at a competitive price is essential for project continuity.

For industry professionals, sourcing chemicals like 2-(2-Pyridyl)phenol from a reputable manufacturer in China offers a blend of cost efficiency and access to advanced manufacturing capabilities. Whether for research and development or larger-scale production, securing a dependable supply chain is vital. We are dedicated to being that trusted supplier, offering high-quality 2-(2-Pyridyl)phenol with comprehensive technical data to support your projects. Explore our offerings and discover how we can assist your chemical needs.