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HS Code |
391937 |
| Casnumber | 4427-96-7 |
| Molecularformula | C5H6O3 |
| Molecularweight | 114.10 g/mol |
| Iupacname | 4-vinyl-1,3-dioxolan-2-one |
| Appearance | Colorless to pale yellow liquid |
| Boilingpoint | 79-81°C at 10 mmHg |
| Density | 1.222 g/cm³ at 25°C |
| Refractiveindex | 1.432 at 20°C |
| Purity | ≥99% |
| Solubility | Soluble in organic solvents, insoluble in water |
As an accredited Vinyl Ethylene Carbonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
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Purity 99.5%: Vinyl Ethylene Carbonate with purity 99.5% is used in lithium-ion battery electrolyte formulations, where it enhances cycling stability and reduces electrolyte decomposition. Viscosity 1.8 mPa·s: Vinyl Ethylene Carbonate at viscosity 1.8 mPa·s is used in supercapacitor electrolytes, where it improves ionic conductivity and charge-discharge efficiency. Molecular Weight 102.09 g/mol: Vinyl Ethylene Carbonate with a molecular weight of 102.09 g/mol is used in polymer synthesis processes, where it promotes uniform polymer chain integration and mechanical strength. Melting Point 25°C: Vinyl Ethylene Carbonate with a melting point of 25°C is used in high-performance coatings, where it ensures easy processing and optimal film formation. Particle Size <10 µm: Vinyl Ethylene Carbonate with particle size less than 10 µm is used in electrode slurry formulations, where it enhances homogenization and dispersion stability. Stability Temperature 120°C: Vinyl Ethylene Carbonate stable at 120°C is used in thermal-resistant adhesives, where it maintains adhesive integrity under elevated temperatures. Water Content <0.01%: Vinyl Ethylene Carbonate with water content below 0.01% is used in anhydrous battery applications, where it prevents undesirable hydrolysis and gas evolution. Flash Point 110°C: Vinyl Ethylene Carbonate with a flash point of 110°C is used in advanced solvent systems, where it reduces the risk of flammability during handling and storage. Refractive Index 1.418: Vinyl Ethylene Carbonate with refractive index 1.418 is used in optical resin formulations, where it offers improved transparency and light transmission. Density 1.22 g/cm³: Vinyl Ethylene Carbonate with a density of 1.22 g/cm³ is used in composite material manufacturing, where it ensures high material packing density and structural uniformity. |
| Packing | Vinyl Ethylene Carbonate is packaged in a 500g amber glass bottle, sealed with a PTFE-lined cap for stability and safety. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for Vinyl Ethylene Carbonate: 80-100 drums (200 kg each), total net weight around 16-20 metric tons. |
| Shipping | Vinyl Ethylene Carbonate is typically shipped in tightly sealed, corrosion-resistant containers to prevent moisture and air exposure. It should be stored in cool, dry conditions and protected from heat, flames, and incompatible substances. Proper labeling and adherence to local regulations for hazardous chemicals are essential during transport and storage. |
| Storage | Vinyl Ethylene Carbonate should be stored in a cool, dry, and well-ventilated area, away from sources of heat, ignition, and direct sunlight. Keep the container tightly closed and away from strong oxidizing agents and moisture. Store in a chemical-resistant, appropriately labeled container, and ensure proper grounding to avoid static discharge. Handle under inert atmosphere if possible to maintain stability. |
| Shelf Life | Vinyl Ethylene Carbonate typically has a shelf life of 12–24 months when stored in a cool, dry, and tightly sealed container. |
Competitive Vinyl Ethylene Carbonate prices that fit your budget—flexible terms and customized quotes for every order.
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At our plant, turning raw materials into something specialized calls for hands-on attention every step of the way. Vinyl Ethylene Carbonate isn’t a simple commodity. This molecule, carrying both a reactive vinyl group and the robust carbonate ring, shapes the behavior of complex chemicals in ways most products can’t match. Over years of development, we have kept one foot rooted in tried-and-true industrial chemistry, while pushing for tighter controls on purity, impurity profiles, and consistency—qualities essential in sensitive downstream applications.
Our finished Vinyl Ethylene Carbonate presents as a clear, low-viscosity liquid, stable under recommended storage and transit. The model we ship to clients maintains minimum water, key because even small traces in the final application can create unwanted side-reactions or threaten quality. You find its boiling point and density right where high-end lithium-ion battery and synthetic polymer producers expect, keeping integration straightforward. For those who work at the intersection of scalability and precision, our product lets you dial up performance in modern electrolytes, advanced resins, or specialty adhesives.
In daily production, one of our biggest hurdles remains moisture control—not just in the main synthesis line, but across storage tanks, valves, transportation casks. Water traces can ruin a batch in battery research labs or downstream monomer feeds. Rather than leaning on drying agents alone, we built humidity detection and elimination into every stage. By maintaining low ppm water, we protect reactivity at the client site, which saves you time and helps keep costly research on schedule.
Major companies rely on this molecule in lithium-ion batteries for a clear reason: the molecular structure provides a dual function. The vinyl group offers high reactivity for further polymerization, while the carbonate ring delivers structural stability and ionic conductivity. Compared with more basic carbonates (like propylene or ethylene carbonate alone), our product bridges high voltage performance and safety—especially in electrolytes that push cycling rates or operate across temperature extremes.
Synthetic polymer manufacturers prize what this compound brings to copolymerization. The vinyl moiety lets you tailor chain lengths, not merely by modifying catalyst routines or temperatures, but by working at the monomer level. With the right ratios, the carbonate ring gets built into the backbone, lending new rigidity or flexibility depending on the recipe. There’s real value here for anyone designing high-performance coatings or sealants, especially in sectors where every percentage point of performance matters.
Electrolyte formulation remains a science, driven by safety mandates and customer demand for higher energy density. Vinyl Ethylene Carbonate steps in as a film-forming additive. During battery cycling, it reacts at electrode surfaces to generate a stable SEI (Solid Electrolyte Interphase). This film blocks continuous electrolyte breakdown, limits gas formation, and extends cell lifespan. Electrodes run cleaner over repeated cycles, and the risk of capacity fade slows—even in aggressive high-voltage scenarios.
Researchers experimenting with silicon or high-nickel cathodes lean on our grade to keep side reactions under control. The secondary reactivity of our vinyl group means test cells gain performance improvements without exotic, hard-to-source co-additives. Our customers regularly share results showing higher coulombic efficiency and smoother voltage profiles, directly linked to the structure of this carbonate. We appreciate the feedback; it pushes us to keep refining the process.
Plenty of other carbonate molecules circulate on the market. What sets this apart starts with the vinyl group. Standard ethylene carbonate provides baseline solubility and dielectric function but falls short for targeted reactivity. Vinyl-terminated analogs—like ours—merge the polymerization path of acrylates or methacrylates with the well-characterized safety and electrochemical traits of carbonate rings.
Ordinary carbonates often come bulk-processed, with little attention to contamination that can throw off advanced applications. We take a granular approach to impurity control. Even the faintest organic acids or oligomers get flagged and removed before packaging batches for shipment. Consistency batch-to-batch means downstream users can run pilot lines at scale, then transition to commercial runs without rewriting process controls.
We maintain close communication with university research centers as well as industrial pilot operators. Feedback on how Vinyl Ethylene Carbonate interacts in their custom blends shapes our benchmarks. Polymer chain propagation rates, melting points in battery pouches, and even minute shifts in viscosity receive careful monitoring back in our labs. If a lab needs finer particle filtration or a tweak to acidity profile, we handle it before product leaves the site.
Our technical support includes on-site visits for key clients during scale-up phases. Working shoulder to shoulder with engineers, we examine how subtle tweaks—like storage humidity or delivery tank material—impact final blends. Customers use our insights to troubleshoot beyond generic user guides, keeping start-ups and established production lines running at expected yields.
Manufacturing chemicals isn’t just about technical perfection. It also means addressing real-world constraints—environmental compliance, safe transport, and operator exposure. Vinyl Ethylene Carbonate comes with challenges for the unprepared: high reactivity raises the stakes in handling leaks or making storage errors. We spent years retrofitting ventilation and fire suppression in both large and small batch rooms. Our monitoring for air quality and accidental contact follows or exceeds the chemical industry’s evolving standards.
On the environmental side, reducing fugitive emissions and waste streams goes hand-in-hand with safe operation. Rather than disposing of off-spec product, we recycle solvent streams and unreacted precursor back into the reactor when quality permits. This reduces both cost and landfill impact—an ongoing promise to plant neighbors as much as downstream OEMs.
No two users treat Vinyl Ethylene Carbonate precisely the same way. Some want tight packaging and overnight cold chain; others handle bulk shipment at ambient temperatures. Having shipped to both cutting-edge research sites and robust industrial basements, we know the range of pitfalls that can derail smooth adoption. Our technical team isn’t just available at a distance—a senior operator picks up the phone to talk through issues, from initial sample all the way to end-of-life disposal.
Listening to our partners has shown us the future isn’t just about volume. It’s about repeatability, traceability, and transparency. Each batch carries full analytical data and trace impurity logs. If a user flags a surprise outcome, we trace not only shipment data but precursor batches, down to the operators who ran the reactor that day. This level of accountability increases customer confidence, particularly as the world’s largest battery and polymer producers face tighter traceability requirements.
Volatile feedstock prices and sudden regulatory changes shape our days as much as technology. Disruptions ripple through the sector—unexpected plant outages or transport restrictions can throw plans off coast to coast. We build redundancy into raw material sourcing and in-house storage, keeping several weeks of safety stock for critical customers. Unlike generic traders, we see the actual reactor in operation and spot trouble in real time, making course corrections on-the-fly to meet delivery obligations.
During global supply squeezes in recent years, direct communication with end-users smoothed out purchase cycles. If customers needed smaller or staggered deliveries, we worked out splitting lots or moving inventory to third-party warehouses for faster access. That adaptability has kept key production lines moving, where waiting for vessels at the port could have meant month-long holdups.
More battery and polymer developers are moving toward high-voltage, fast-charging, and solid-state technologies. Key to scaling these trends is a molecule that can handle stress and deliver new performance. Vinyl Ethylene Carbonate, with its unique vinyl-carbonate structure, addresses these needs by supporting more robust, stable interfaces without sacrificing energy density. Partners rely on our grades to transition from small test cells to commercial runs with fewer headaches and less time revalidating production protocols.
Polymer chemists build more functional block copolymers, exploring smart coatings and next-generation sealants with resilience well beyond older generations. The ability to copolymerize with tailored vinyl content opens a door for custom surface treatments, hydrophobic coatings, and biomedical encapsulation. By supporting these experimental efforts behind the scenes, our production line quietly shapes the next wave of materials science innovation.
Quality control never ends at our site. Each production batch undergoes a full spectrum of analyses—chromatography, moisture titration, and spectrophotometry. Operators who run these lines carry years of in-field experience. They know exactly how process tweaks ripple through final product behavior and can spot the smallest deviation before it reaches a customer’s plant. We regularly benchmark our methods against the most stringent Japanese and European protocols, recognizing that our users won’t accept less.
Beyond the lab, the team checks compatibility for every new storage tank, shipping drum, and valve material before allowing a batch to move forward. Persistent inspection pays off—not only by catching contaminants, but also by ensuring each product grade behaves the same in your mixers or reactors every time.
Handling reactive vinyl carbonates calls for more than simple PPE and warning signs. We supply robust training—including simulation exercises and response drills for client teams facing a new product on site. Relationships with local hazmat responders keep emergency plans current. Safety sheets update with each manufacturing revision, and changes get communicated clearly and promptly.
Safe handling isn’t just about liability; it protects industry reputation and maintains customers’ trust in every kilogram produced. Our focus on up-to-date practice grew from real incidents—minor leaks or barrel mishandling—where fast action and transparency proved their worth.
Value in today’s specialty chemical markets comes from a reliable, transparent, and knowledgeable supply chain. Vinyl Ethylene Carbonate sits as one example—it’s the result of close coordination among process engineers, analytical chemists, frontline operators, and the technical teams on the receiving side. As new applications emerge, we remain committed to sharing insights from our own operation, listening to concerns, and keeping product quality at the front of our operation.
Our journey with this product shows that partnership between maker and user matters. Feedback loops shorten, troubleshooting becomes richer, and new goals—higher energy, stronger polymers, greener chemistry—shift from slide decks to production lines. This is how we keep pace with a fast-moving industrial world, and it’s how we continue to deliver real value to those who depend on molecules like Vinyl Ethylene Carbonate to move their businesses forward.
