Chloroethylene Carbonate (CEC): An Essential Additive for Advanced Lithium-Ion Batteries
Discover the critical role of Chloroethylene Carbonate (CEC) in enhancing lithium-ion battery performance, stability, and longevity. Learn about its applications and benefits as a key chemical intermediate and electrolyte additive.
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Chloroethylene Carbonate
As a leading supplier in China, we offer super quality Chloroethylene Carbonate (CAS 3967-54-2) with a high purity assay of 99.5% MIN. Our product meets high-quality standards and is competitively priced, with support for online purchase. Chloroethylene carbonate is a vital component for advanced lithium-ion batteries, acting as an electrolyte additive to significantly improve battery performance, conductivity, and overall safety.
- As a crucial component for lithium-ion batteries, our Chloroethylene Carbonate enhances battery performance and stability.
- Utilize our high purity Chloroethylene Carbonate as a key intermediate for organic synthesis and polymer synthesis.
- Explore the benefits of our Chloroethylene Carbonate for improving lithium ion battery performance, a vital aspect when searching for reliable chemical suppliers.
- We provide competitive pricing for our premium Chloroethylene Carbonate, making it an attractive option for bulk purchase.
Advantages Delivered by the Product
Enhanced Battery Performance
Our Chloroethylene Carbonate acts as a superior electrolyte additive, contributing to better conductivity and extended lifespan for lithium-ion batteries, essential for electric vehicles and consumer electronics.
High Purity Assurance
We guarantee a minimum purity of 99.0% for our Chloroethylene Carbonate, ensuring optimal results in demanding applications such as organic synthesis and polymer development.
Versatile Chemical Intermediate
Beyond battery applications, Chloroethylene Carbonate serves as a valuable intermediate in polyester synthesis and other fine chemical processes, offering versatility to manufacturers.
Key Applications
Lithium Battery Electrolyte Additive
Significantly improves the stability, conductivity, and safety of lithium-ion batteries, directly impacting the performance and longevity of devices powered by them.
Polyester Synthesis
Acts as a key component in the synthesis of polyesters, contributing to the creation of various polymer-based materials with specific properties.
Organic Synthesis
Serves as a versatile intermediate in various organic synthesis pathways, enabling the creation of complex molecules and fine chemicals.
Polymer Synthesis
Utilized in the development of new polymers, contributing to advancements in material science and the creation of specialized materials.