Zinc Acetate, scientifically represented by the formula C₄H₆O₄Zn, is a fascinating inorganic compound with a unique set of chemical and physical properties that dictate its broad applicability. Commonly encountered as the dihydrate, Zn(CH₃COO)₂·2H₂O, it typically appears as white crystalline plates or granules, often characterized by a distinct, albeit faint, acetic acid odor. Its solubility in water is notable, making it convenient for aqueous formulations and reactions, while it also exhibits solubility in alcohol.

The molecular structure involves a central zinc ion (Zn²⁺) coordinated with acetate ions (CH₃COO⁻). In its crystalline dihydrate form, water molecules are also incorporated into the lattice structure. Understanding its stability, particularly its decomposition point, is crucial for handling and storage. While it does not readily ignite, it can decompose upon heating to emit toxic fumes, necessitating appropriate safety precautions.

The pH of Zinc Acetate solutions typically falls within a neutral to slightly acidic range, making it compatible with many other chemical compounds. Its density and melting point are important physical parameters for industrial handling and process design. The anhydrous form, (CH₃COO)₂Zn, also exists and possesses slightly different physical properties, such as a higher melting point but similar chemical reactivity in solution.

For those in chemical synthesis or research, the behavior of Zinc Acetate as a Lewis acid and its ability to participate in various coordination and organic reactions are of particular interest. As a reliable manufacturer and supplier, we ensure that our Zinc Acetate products are characterized by high purity and consistent chemical properties, meeting the rigorous demands of scientific research and industrial production. Understanding these fundamental chemical properties allows for optimal utilization of Zinc Acetate across diverse applications.