Ethylene Carbonate丨CAS 96-49-1

Ethylene Carbonate丨CAS 96-49-1
Product Introduction:
Catalog No.: SS137119
CAS No.: 96-49-1
Grade/Purity: Battery grade/99.99% min
Product Name: Ethylene carbonate
Molecular Formula: C3H4O3
Molecular Weight: 88.06
Synonym(s): Ethylene glycol carbonate
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Technical Parameters
Description

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Specifications

 

Grade Battery grade
Appearance White solid or colorless transparent liquid
Color (Hazem) (Pt-Co No.) 10 max
Purity 99.99% min
Moisture 0.002% max
Chloroform 0.003% max
Ethyl acetate 0.003% max
Methanol 0.002% max
Sodium 1 ppm max
Iron 1 ppm max
Copper 1 ppm max
Lead 1 ppm max
Zinc 1 ppm max
Nickel 1 ppm max
Chromium 1 ppm max
Magnesium 1 ppm max
Aluminum 1 ppm max
Tin 1 ppm max
Cobalt 1 ppm max
Calcium 1 ppm max
Manganese 1 ppm max
Potassium 1 ppm max
Cadmium 1 ppm max
Sulfate 2 ppm max
Chloride 2 ppm max
Acidity 2 ppm max

 

 

 

Applications

 

Ethylene carbonate is widely used as a solvent, electrolyte component, and intermediate in chemical synthesis. In the battery industry, it serves as a high-permittivity solvent in lithium-ion and other rechargeable batteries, improving ionic conductivity and electrode stability. The compound is also employed in the production of polycarbonate plastics, coatings, and specialty polymers through ring-opening polymerization. In chemical synthesis, it functions as a reactive intermediate for producing ethylene glycol, pharmaceuticals, agrochemicals, and fine chemicals. Additionally, ethylene carbonate is utilized in laboratory research for solvent evaluation, polymer studies, and as a model compound in electrochemical and materials science experiments.

 

Benefits

 

Ethylene carbonate offers several advantages due to its polar, aprotic nature and high dielectric constant. It enhances the solubility of salts and improves ionic mobility in electrolytes, which is critical for battery performance and stability. The compound is thermally stable and chemically inert under typical processing conditions, ensuring reliable performance in synthesis and electrochemical applications. Its low toxicity, non-volatility, and compatibility with a wide range of solvents make it safer and easier to handle compared with other polar aprotic solvents. Additionally, its reactivity as a cyclic carbonate allows efficient conversion into polycarbonates and glycols, providing versatility in chemical manufacturing and material design.

 

Conclusion

 

Ethylene carbonate is a versatile compound used in batteries, polymer synthesis, and chemical manufacturing. Its applications in electrolyte systems, polymer production, and synthesis, combined with benefits such as high dielectric constant, thermal stability, and safety, make it an important component in materials science and industrial chemistry. The compound continues to support efficient energy storage solutions, polymer development, and chemical synthesis processes.

 

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