|
HS Code |
934742 |
| Productname | Ethyl Difluoroacetate |
| Casnumber | 454-31-9 |
| Molecularformula | C4H6F2O2 |
| Molecularweight | 124.08 g/mol |
| Appearance | Colorless liquid |
| Boilingpoint | 93-95 °C |
| Density | 1.164 g/cm3 at 20 °C |
| Refractiveindex | 1.340-1.342 |
| Purity | Typically ≥98% |
| Solubility | Miscible with organic solvents |
| Flashpoint | 15 °C |
| Smiles | CCOC(=O)CF2 |
As an accredited Ethyl Difluoroacetate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
|
Purity 98%: Ethyl Difluoroacetate 98% purity is used in pharmaceutical intermediate synthesis, where it ensures high yield and minimal impurity formation. Boiling Point 107°C: Ethyl Difluoroacetate with a boiling point of 107°C is utilized in organic solvent systems, where its controlled volatility enables efficient solvent removal. Molecular Weight 124.07 g/mol: Ethyl Difluoroacetate with a molecular weight of 124.07 g/mol is applied in fluorinated agrochemical preparations, where precise dosing improves active compound formulation. Chemical Stability: Ethyl Difluoroacetate with enhanced chemical stability is used in specialty polymer modification, where it maintains structural integrity during reaction processes. Reactivity Profile: Ethyl Difluoroacetate with a high reactivity profile is suitable for rapid esterification reactions, where it accelerates reaction rates for industrial synthesis. Water Content <0.2%: Ethyl Difluoroacetate with water content less than 0.2% is used in moisture-sensitive fine chemical manufacturing, where low water levels prevent hydrolysis and side reactions. Density 1.17 g/cm³: Ethyl Difluoroacetate with a density of 1.17 g/cm³ is applied in analytical standard preparation, where consistent density enables accurate volumetric measurements. Storage Temperature 2-8°C: Ethyl Difluoroacetate stored at 2-8°C is used in research laboratories, where controlled storage conditions preserve reagent quality and prolong shelf life. |
| Packing | Ethyl Difluoroacetate, 100g, supplied in a sealed amber glass bottle with a secure screw cap and tamper-evident seal. |
| Container Loading (20′ FCL) | 20′ FCL container loading for Ethyl Difluoroacetate typically holds about 12–16 metric tons, securely packed in approved drums or IBCs. |
| Shipping | Ethyl Difluoroacetate should be shipped in tightly sealed containers, protected from light, heat, and moisture. The package must comply with regulatory guidelines for chemical transport, including appropriate labeling and documentation. Ensure transport in accordance with applicable local, national, or international regulations, protecting against leaks or spills during transit. |
| Storage | Ethyl Difluoroacetate should be stored in a tightly closed container in a cool, dry, and well-ventilated area, away from sources of ignition and incompatible substances such as strong oxidizing agents. Protect from moisture and direct sunlight. Ensure proper labeling, and keep away from heat and open flames. Always follow local regulations and safety guidelines for chemical storage. |
| Shelf Life | Ethyl Difluoroacetate typically has a shelf life of 12-24 months when stored tightly sealed in a cool, dry, and well-ventilated area. |
Competitive Ethyl Difluoroacetate prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615651039172 or mail to sales9@bouling-chem.com.
We will respond to you as soon as possible.
Tel: +8615651039172
Email: sales9@bouling-chem.com
Flexible payment, competitive price, premium service - Inquire now!
Our work with Ethyl Difluoroacetate goes back to the early R&D days when demand was just budding in pharmaceutical synthesis. Over a decade of scaling up, fine-tuning distillation, and refining raw fluorination routes has shaped a product that offers stable purity and reliable performance. Clients today expect more than minimum specs—they ask for uniform batches that help tighten process windows and reduce analytical headaches. Experience on our end links every step, batch-to-batch, to keep analysis results in a predictable band. Technicians on our shop floor know the difference between a batch on track and a batch that strays, and we keep the focus on outcome, not just paperwork. That’s the kind of reliability customers remember.
Out in the field, reactions rarely go as textbooks claim. Side products sneak in, equipment tolerances vary, and yields can live or die by slight shifts in reagent quality. Our Ethyl Difluoroacetate, Model DF-120, routinely meets tight purity standards because we operate with heavy oversight, not shortcuts. We push for a GC purity exceeding 99 percent, with water and trace contaminants controlled with a tested combination of molecular sieves and vacuum techniques. There’s always talk of “industrial grade” versus “lab grade”—to us, it matters less what the label says than what the actual lot reports tell. We keep in direct contact with process chemists using our product, so any outlier in impurity profile gets flagged early.
Long shipping routes and volatile chemicals are a rough mix. Countless hours have gone into developing steel-lined drums, PTFE-sealed liter bottles, and nitrogen-purged micro-containers to fit various order sizes. Ethyl Difluoroacetate is not a candidate for cheap packaging. Moisture creeps in where plastic jugs fail, so swapping out for air-tight materials isn’t just a cost bump—it’s a yield guarantee for the end-user. One of our regulars in the electronics sector pointed out early on that trace moisture made all the difference in downstream etching. From that note, we revised all cap liners and swapped to a vendor with better torque specs. Over time, these small course corrections stack up in real process improvements.
Origin stories matter in chemicals, especially with tightly regulated substances. We keep direct control over precursor sourcing for Ethyl Difluoroacetate. No off-market or poorly-audited routes pass our gates. Each batch comes with a clear trail—reaction date, operator, vessel number, all the way down to analytical signature. This isn’t just about passing a regulatory inspection; it provides real value when troubleshooting surprises at scale. Being a manufacturer, not a trader, lets us lock this chain from start to finish. Over the years, clients facing synthesis drift or unexplained residues have leaned on these records to trace solutions faster, not just fill out compliance files.
Ethyl Difluoroacetate works as a key intermediate across many synthesis chains, not just the big-ticket pharmaceuticals. Our regular shipments go to agrochemical labs working on novel herbicides as well as custom synth shops focused on fluorinated building blocks. We see new stories all the time: a pigment producer targeting unique colorfast dyes needed consistent reactivity; a fragrance developer described our product as “the missing step for a signature note.” Science moves fast out there, but certain bottlenecks repeat. Each feedback loop from these diverse users goes straight into our process adjustments—tighter yields, better impurity control, or improved shipping stability. As years pass, those requests shape the product evolution, top-down from the plant.
You can never ignore safety with volatile esters. In our own facility, well before drums leave the loading bay, every line and valve faces leak-checks. We build containment fallback into our warehouse layout, not just in the sales literature. From early days, improper storage led to a bulk loss requiring weeks to clean—no paper plan replaces what you learn from on-the-ground mishaps. Our approach now uses forced ventilation, non-sparking tools, and double-checked grounding. End users have invited us to their own operations to help set up correct handling, and we return home with new notes on storage do’s and don’ts. These practical lessons keep getting baked into our updated manuals—and shared directly with buyers, not hidden behind technical jargon.
Today’s market offers a variety of fluoroacetates, and it’s easy to treat them as interchangeable. Over time, we’ve seen that minor shifts—down to the grade of starting ethanol or choice of fluorinating agent—impact both downstream product quality and waste disposal. A batch synthesized from an imprecise route can introduce trace byproducts that worsen reactor cleanup or skew chiral purity. Our process sticks to controlled conditions, using select-grade raw materials, since we’ve measured over and over how even a 0.2 percent impurity level can foul a downstream reaction. Waste processing also reacts to seemingly minor side products, and regulations on fluorinated waste keep tightening worldwide. We've invested in dedicated reactors and cleaned up our utilities to avoid any cross-main contamination, since cross-contact can haunt systems for weeks.
Requests often reach us for custom concentrations or adjusted impurity profiles. Academic labs, startups chasing patents, or entrants into specialty markets all bring needs far outside the standard product line. Over half of our production batches now adjust for non-catalog requests. This means switching out solvents, extending drying cycles, or providing documentation for rare analytical markers. Being a true manufacturer—not a shelf stocker—allows this flexibility. Our technical staff know the product inside out, and we don’t shy away from phone calls or plant visits. One recent partnership involved supplying a biomedical startup with a material tailored for strict animal safety testing, which called for both tighter specs and complete trace metal profiles. The knowledge we gain iterating with these specialized users keeps our mainstream product robust and ahead of industry shifts.
Counterfeit goods have always floated around the specialty chemical market, sometimes with a cloned label, sometimes only close on the molecular formula. Several clients have approached us after running into trouble with grey-market Ethyl Difluoroacetate: higher-than-claimed toxic byproducts, subpar yields, and closed reactors due to unexpected residues. Traceability stands out as the main weapon. We apply visible lot identifiers and make batch data available to every purchaser. Anything short of full analytical traceback typically signals trouble, and we maintain a running dialogue with long-term customers to keep track of potential market shifts or suspect supply offers. Defending against knockoffs goes beyond legal threats—our best defense comes from better relationships, strong lot control, and open technical documentation, so customers can always verify before committing to a large-scale run.
Fluorinated organics, including Ethyl Difluoroacetate, bring disposal concerns. Regulations on volatile organic compounds tighten each year. Our plant shifted to an on-site recovery and neutralization system that strips residual fluorine and recycles base solvent. Reducing “incinerate everything” in favor of targeted recovery saves money and wins points with regulators. We work with downstream users to review their local disposal compliance, provide material safety literature tuned for actual working scenarios—not just legal minimums—and update guidance every time regulations change. We push our supply partners to do the same. It’s not about just moving material off the balance sheet; it’s about a sustainable solution from start to waste stream.
Process teams downstream have reported hard numbers after switching to tighter batches of Ethyl Difluoroacetate: improved step-yields, reduced pressure on scrubber systems, and lower frequency of unplanned shutdowns. We encourage process partners to share anonymized yield and failure data back up the chain, rather than keep results closed. This collaborative approach has saved end-users tens of thousands in raw material and cleanout costs over a fiscal year. In one documented application, a pharmaceutical manufacturer chronicled reduced loss during distillation, thanks to a drop in trace acid byproducts that previously sparked corrosion.
More labs and plants require full trace records these days, whether for GMP, ISO, or local environmental audits. We submit, with every order, a technical packet outlining not just a summary certificate but detailed spectra, origins for all materials, off-lot analytical data, and a narrative of process controls. Auditors ask for more than checkboxes—they like to see flowcharts, operator signatures, and real evidence of corrective actions. Our on-site technical archivist fields third-party inquiries and makes sure client files line up with real-life plant events. This proactive approach steers clear of audit delays and lets buyers prepare stronger compliance files for their own inspections. Over time, this hands-on, transparent attitude has helped clients score higher on quality audits.
Demand for fluorinated intermediates, including Ethyl Difluoroacetate, will keep growing as more industries chase robust, high-value performance. It's not just about higher production volumes; it’s about keeping pace with evolving application techniques. We keep a small, cross-disciplinary R&D team reading the patent journals, reviewing feedstocks with better carbon recovery, and improving reactor energy efficiency. This ongoing commitment means buyers can expect cleaner material, less waste, and in some cases, unique co-products developed in tandem with users frustrated by commercial limitations. Open-door feedback cycles help us spot market shifts early—long before they hit the mainstream.
Producing Ethyl Difluoroacetate with a clear, reproducible profile isn’t glamorous, but it’s the foundation for predictable synthetic campaigns. Our operators build each batch with decades of know-how, backed with up-to-date process control. Every learning, every client note, feeds this cycle. Direct communication, transparent practices, and an eye for continuous improvement have set us apart with loyal customers who care about what ends up in their bottle, not just on a pricing sheet. We find value in rolling up our sleeves and getting things right, every step from raw material to final QC pass.
Guaranteeing end results in chemistry doesn’t come from fancy marketing. It comes from process discipline, tight documentation, and learning from hands-on reality. Each year, new users seek us out after a run-in with unpredictable or mislabeled lots elsewhere. By making our processes, records, and technical knowledge accessible, we shorten their learning curve and help keep projects on schedule. Our job isn’t finished until the material performs just as our users expect, with no surprises hidden in the drum—or downstream. Production of Ethyl Difluoroacetate stands as a perfect example of how manufacturer know-how delivers real value every day, in real-world labs and plants, for customers who rely on more than just a basic spec line.
