Home / Chemical Intermediates/ Ethylenedinitrilo Tetraacetic Acid (EDTA)
EDTA, also referred to as ethylenedinitrilo tetraacetic acid, is a white powder that is soluble in a variety of solvents and has the ability to combine with transition metals, rare earth elements, and alkali metals to form stable complexes. It is used as a chelating agent to adhere to metals and calcium because of its claw-like structure. Doctors prescribe EDTA to help the body rid itself of toxins, and it's a vital component of medications that fight cancer. At 240°C, it breaks down over its melting point.
C10H16N2O8
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MS Data SheetEthylenedinitrilo Tetraacetic Acid (EDTA)
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SYNONYMS
EthyleneDiamineTetraAcetic acid Diaminoethane-tetraacetic acid Edetic acid (conjugate base edetate)
MOLECULAR WEIGHT
292.244 g/mol
CAS NUMBER
60-00-4 (free acid) 6381-92-6 (dihydrate disodium salt)
CHEMICAL FORMULA
C10H16N2O8
HS CODE
60-00-4
DENSITY
0.860 g/cm³
MELTING POINT
Not Specified
BOILING POINT
Not Specified
VISCOSITY
Not Specified
SHELF LIFE
2 Years
TYPICAL PROPERTIES
Not Specified
Ethylenedinitrilo Tetraacetic Acid (EDTA) is a white, water-soluble solid, often used as a chelating agent. Known for its ability to bind to metal ions, EDTA plays a critical role in preventing unwanted reactions between metals and other compounds. This makes it indispensable in formulations where maintaining chemical stability is essential. EDTA is widely recognized for its ability to sequester metal ions, ensuring that they do not interfere with the performance of the overall formulation. EDTA manufacturers prioritize the purity and stability of the compound during production. The manufacturing process focuses on achieving a high level of consistency, as even minor variations can impact EDTA’s effectiveness as a chelating agent. By ensuring the compound is free of contaminants and maintaining strict quality control, manufacturers deliver a product that meets the highest standards for use in a variety of sectors. In recent years, EDTA manufacturers have increasingly adopted sustainable practices in response to growing environmental concerns. Many are now focusing on reducing waste and using eco-friendly processes during production. These efforts align with the broader movement within the chemical industry toward sustainability, ensuring that EDTA is produced in a way that minimizes its environmental footprint without compromising its effectiveness. EDTA’s versatility lies in its ability to stabilize metal ions, preventing them from engaging in reactions that could affect the formulation’s integrity. Manufacturers ensure that this chelating ability remains intact throughout the product’s shelf life. Stability is critical to its performance, making it a reliable choice for industries that require precise control over metal ion interactions. The precision and care with which EDTA is manufactured contribute to its effectiveness as a key ingredient in various chemical processes. High purity is essential to ensure that the compound performs as expected, and manufacturers go to great lengths to ensure that EDTA is produced with minimal environmental impact while still meeting the rigorous standards required by various industries.
How does EDTA work as a chelating agent?
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Can EDTA be used to treat heavy metal poisoning?
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What are the environmental effects of EDTA?
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Is EDTA biodegradable?
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What are the alternatives to EDTA in industrial applications?
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