Phenol, 4-(2-hydroxyethoxy)-, identified by CAS 13427-53-7, is a fascinating organic compound whose chemical properties underpin its widespread utility across various industries. Understanding its molecular structure, physical characteristics, and synthesis pathways is essential for optimizing its application in sectors ranging from cosmetics to advanced materials.

The molecule features a phenol ring substituted with a 2-hydroxyethoxy group. This combination imparts a unique reactivity profile, making it suitable as both a functional ingredient and a chemical intermediate. Typically appearing as a white powder with a high purity of 98%, it is stable under standard conditions, which is advantageous for storage and formulation. Its properties facilitate its use in applications requiring precise chemical interactions, such as its role as a photoinitiator in UV-curing processes and its function as a building block in pharmaceutical synthesis.

The synthesis of Phenol, 4-(2-hydroxyethoxy)- often involves reactions that combine phenolic compounds with ethylene oxide derivatives or similar hydroxyl-containing reagents. While specific industrial synthesis routes can vary, the aim is always to achieve high purity and yield. For instance, reactions involving catechol derivatives and haloethanols under controlled conditions are common approaches, as indicated by various chemical synthesis databases. The careful control of reaction parameters, catalysts, and purification steps ensures that the final product meets the stringent requirements of its intended applications.

As a fine chemical intermediate, Phenol, 4-(2-hydroxyethoxy)-’s structural features allow for further derivatization. This chemical versatility makes it a valuable starting material for creating more complex molecules with specialized functionalities. Whether used directly in cosmetic formulations or as a key component in the multi-step synthesis of pharmaceuticals, a thorough understanding of its chemical nature is fundamental for its effective deployment. Sourcing this compound from reliable Phenol, 4-(2-hydroxyethoxy)- suppliers ensures access to the precise specifications needed for successful chemical operations.