Manganese Disodium EDTA Trihydrate (CAS 15375-84-5) is a compound whose significance lies in its intricate chemical structure and its ability to perform complex chemical functions. As a derivative of EDTA, it belongs to a class of compounds known as chelating agents, which are fundamental in many industrial and biological processes. Understanding its chemistry is key to appreciating its wide-ranging applications.

Chemical Structure and Composition

The chemical formula for Manganese Disodium EDTA Trihydrate is C₁₀H₁₂MnN₂Na₂O₈·3H₂O. This formula reveals several key components:

  • EDTA Backbone: The core of the molecule is the Ethylenediaminetetraacetic acid (EDTA) structure. EDTA is a hexadentate ligand, meaning it can form six coordinate bonds with a central metal ion. Its structure features two amino groups and four carboxylate groups, which can efficiently wrap around and bind metal ions.
  • Manganese Ion (Mn²⁺): The central metal atom is manganese, typically in its +2 oxidation state. This manganese ion is the nutrient or active element delivered or stabilized by the EDTA ligand.
  • Sodium Ions (Na⁺): Two sodium ions are present to balance the charge of the carboxylate groups and the overall complex, making it a salt.
  • Water Molecules (Trihydrate): The 'trihydrate' designation indicates that three molecules of water are associated with each formula unit of the compound in its crystalline form. These water molecules can influence the compound's physical properties, such as solubility and stability.

The molecular weight is approximately 443.18 g/mol. The compound typically appears as a white to almost white powder, reflecting its crystalline nature.

The Mechanism of Chelation

The effectiveness of Manganese Disodium EDTA Trihydrate stems from the chelation process. The EDTA ligand forms a stable cage-like structure around the manganese ion. This complexation prevents the manganese ion from undergoing reactions that would typically occur in solution, such as precipitation or oxidation. In agricultural applications, this chelation ensures that manganese remains soluble and available for plant uptake in the soil, even under conditions where free manganese ions might otherwise become unavailable.

Industrial Relevance and Sourcing

The stability of the manganese-EDTA complex makes it valuable in various industrial settings, from water treatment to textile processing. As a supplier of this essential chemical, we ensure that our Manganese Disodium EDTA Trihydrate adheres to strict quality standards. When you look to buy this compound, understanding its chemical basis helps in selecting the right grade and supplier. We provide detailed technical specifications to assist our clients in their procurement decisions.

By understanding the chemistry behind Manganese Disodium EDTA Trihydrate, industrial users can better appreciate its capabilities and optimize its use in their specific applications. As a reliable manufacturer and supplier, we are here to provide high-quality products and technical support to meet your chemical needs.