To effectively utilize any chemical compound, a thorough understanding of its properties is essential. DBU Phenol Salt, bearing the CAS number 57671-19-9, is no exception. As a prominent chemical intermediate, its physical and chemical characteristics directly influence its performance in diverse synthesis and industrial applications. Manufacturers and researchers often seek detailed information on the 'properties of DBU phenol salt' to ensure optimal outcomes.

Physically, DBU Phenol Salt is typically described as a white powder. This form factor, coupled with its solubility in water and ethanol, makes it relatively straightforward to handle and incorporate into various reaction mixtures. Such physical attributes are crucial for its seamless integration into laboratory and industrial processes, simplifying the 'chemical intermediate applications'. The purity, often specified with an assay of ≥98.0%, is another critical property. High purity is indispensable for achieving precise reaction results, minimizing by-products, and ensuring the quality of the final synthesized products.

Chemically, DBU Phenol Salt is recognized for its role as a powerful base and a nucleophile, properties that underpin its utility as a catalyst and reagent in numerous organic synthesis reactions. Its ability to facilitate reactions like ester dehydration, condensation, and acylation makes it a sought-after material for chemical companies looking to enhance efficiency and yield. When considering the 'buy DBU phenol salt' decision, these chemical functionalities are primary drivers.

For those sourcing this compound, engaging with reliable 'DBU phenol salt suppliers China' is vital. These suppliers not only provide the product but also offer technical data and support, helping users to better understand and leverage the specific properties of the salt. Whether used in the synthesis of fine chemicals, pharmaceutical intermediates, or other specialized materials, a deep appreciation for the 'properties of DBU phenol salt' is the first step towards successful and efficient chemical production.