|
HS Code |
799736 |
| Chemical Name | Ethyl 2-benzylacetoacetate |
| Cas Number | 3260-09-9 |
| Molecular Formula | C13H16O3 |
| Molecular Weight | 220.27 |
| Appearance | Colorless to pale yellow liquid |
| Boiling Point | 154-156°C at 12 mmHg |
| Density | 1.09 g/cm3 |
| Refractive Index | 1.502-1.504 |
| Smiles | CCOC(=O)C(Cc1ccccc1)C=O |
| Purity | Typically ≥98% |
As an accredited Ethyl 2-benzylacetoacetate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of Ethyl 2-benzylacetoacetate is supplied in a sealed amber glass bottle with a secure screw cap and hazard labeling. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): 13,000 kg packed in 130 fiber drums (100 kg each) of Ethyl 2-benzylacetoacetate, securely palletized. |
| Shipping | Ethyl 2-benzylacetoacetate is typically shipped in tightly sealed containers to prevent leaks and contamination. It should be stored and transported in a cool, dry, and well-ventilated area, away from ignition sources. Proper labeling and documentation are required, with adherence to relevant chemical transportation and safety regulations. |
| Storage | Ethyl 2-benzylacetoacetate should be stored in a tightly closed container, in a cool, dry, and well-ventilated area away from sources of ignition. Protect it from direct sunlight and moisture. Store separately from strong oxidizing agents and acids. Ensure proper labeling, and keep out of reach of incompatible substances to prevent hazardous reactions. Use appropriate personal protective equipment when handling. |
| Shelf Life | Ethyl 2-benzylacetoacetate should be stored tightly sealed, protected from light and moisture; shelf life is typically 2-3 years under proper conditions. |
Competitive Ethyl 2-benzylacetoacetate prices that fit your budget—flexible terms and customized quotes for every order.
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Tel: +8615371019725
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Every batch of Ethyl 2-benzylacetoacetate we deliver comes off our line under strict, hands-on scrutiny. We take purity seriously because every gram impacts our clients’ results downstream. Over three decades, our process has evolved from glassware lab-scale synthesis to state-of-the-art reactors cranking out industrial volumes. In our experience, getting this chemistry right upfront saves hours and labor down the road. The result is a product that actually holds up in your pipeline or bench work.
Day in and day out, our staff blends expertise with accountable process controls. Each synthesis run follows a detailed pathway—starting with high-purity base esters and precise aromatic starting materials. We focus on minimizing by-products and controlling temperature, solvent quality, and pH throughout, since uncontrolled reactions create headaches nobody wants. We monitor with real-time GC and NMR, catching even the faintest sign of unreacted compounds or breakdown products. No batch crosses the loading area without clear confirmation that it matches our release specs.
Ethyl 2-benzylacetoacetate stands out by virtue of its clean benzylic group combined with reliable α-keto functionality. Those who’ve tried to synthesize delicate side chains know how tricky it can be to find stable, ready-to-use intermediates. Our molecule resists the decomposition and hydrolysis issues seen in some other beta-keto esters—thanks to the careful exclusion of moisture and precise handling during workup. We target a purity typically above 98.5%, and routinely fine-tune parameters based on end-user performance feedback.
Users often ask what sets this ester apart from more generic options like ethyl acetoacetate or methyl benzylacetoacetate. The benzyl substituent, introduced under strictly controlled conditions, transforms reactivity, opening new synthesis pathways for complex aromas, pharmaceuticals, and advanced resins. In downstream transformations, the clean break of the benzyl group simply outpaces more basic acetoacetate esters. Our own scale-up chemists noticed that related esters seem fine on the surface, but falter when it’s time to form challenging C–C bonds or introduce sensitive chiral centers. This is why our clients’ medicinal chemistry projects rarely return complaints about impurity profiles or unexpected reactivity.
Technical discussions in the chemical sector often get bogged down in numbers. Still, whenever we open up a fresh drum, it’s not just the GC trace—there’s a quality you can see and smell. Clear, colorless to pale yellow liquid, with a characteristic aromatic note, signals correctly made product. We analyze for acidity, water content, and specific gravity, but users in the field always mention how our product integrates into reaction flasks without fuss. Storage under nitrogen, dark-glass packaging, and small-batch management all contribute to consistent physicochemical stability.
Over the years, we’ve delivered thousands of kilograms to perfumery labs, intermediate producers, and small-scale API developers alike. Chemists lean on Ethyl 2-benzylacetoacetate for both the robust C–C coupling it supports and the ease with which its benzylic moiety transfers to target compounds. Perfume artisans blend it into floral and fruity accords, leveraging its crispness as a backbone for more delicate top notes. Pharmaceutical teams report that our product’s ease of transformation minimizes side reactions, freeing up time to focus on yield and workup. In many years of feedback, clients have flagged fewer purification headaches using our material compared to some imports that seem OK on paper, only to underperform during scale-up.
Bench chemists just want a reliable, reproducible result. Production engineers want drum-to-drum consistency and low reject rates. Many—especially newcomers—are wary of unwanted transesterification or hydrolysis, which long shipping or poor storage can exacerbate. We keep our drums rotating quickly, support cold-chain logistics for overseas shipments, and always use packaging proven to minimize contamination and evaporation. Technical reps on our team routinely check with frequent buyers on reaction outcomes to make sure our syntheses are still matching client expectations.
We start with fresh, high-grade benzyl chloride and ethyl acetoacetate. Temperatures stay tightly monitored, and all stoichiometry is double-checked—these basics prevent runaways or incomplete conversion. We’ve learned through trial and error that careful salt separation and solvent removal keep color bodies and residual acids out of the final drum. Colleagues in other shops sometimes try to rush the process and end up with tints or moisture loading; our slower drying phases and vacuum transfers remove such risks. Samples get pulled and analyzed at multiple stages to catch departures from the norm before they can impact the customer.
For small-molecule synthesis, this intermediate offers real versatility. Teams working on β-keto esters for advanced coupling steps find it predictably clean and easy to work with. Its benzylic position means users can introduce further modifications—through alkylation, reduction, or cyclization—without unexpected side reactions. Several long-term buyers in fine fragrance production use our material due to its compatibility with both oil-based and alcohol-based matrices. We also supply kilo-labs experimenting with chiral intermediates; they value how smoothly asymmetrical transformations take place, needing less post-reaction cleanup.
Some users in agrochemicals need a reliably pure ester to synthesize herbicide intermediates—any off-profile batch can gum up a whole batch, costing both time and money. We keep all technical and safety documentation updated to help with regulatory filings and registration. Pharmaceutical R&D benefits from our full data transparency: every certificate includes full impurity profiling and batch history logged down to the operator and reactor vessel. Industries making optical brighteners often request product tailored for high-temperature processing, so we select material with narrower boiling range and improved stability. We work with clients to adjust these parameters—always discussing whether tighter specs or unique packaging may be warranted.
Storing and transport of Ethyl 2-benzylacetoacetate takes extra diligence—oxygen and light create risk of degradation. Our packaging design reflects this, offering fully sealed, nitrogen-purged drums with tamper-evident closures. Teams regularly inspect inbound feeds and finished drums for leaks or seal flaws. Our internal training makes sure those handling the material know to avoid prolonged open-air contact. We’re also working continuously to reduce emissions and solvent residues in our facility, switching to recirculating scrubbers and secondary containment for all storage.
Decades of direct manufacturing experience inform our priorities every day. We remember the early days, when inconsistent reaction yields and basic chromatography made production painfully slow. Modern automation and tighter controls accelerated our turnaround, but we kept the hands-on approach. Night-shift technicians pull and taste samples, longtime foremen monitor each filling, and engineering staff still take responsibility for any complaint or discrepancy. This sense of ownership has shaped how we approach not just product, but service—many clients have called on us to troubleshoot synthetic challenges outside basic supply.
Working as a direct producer gives us the ability to adjust on the fly—if a client reports even a minor impurity or altered performance, our lab can quickly replicate process steps to isolate the cause. Distributors and traders just don’t have the same insight or capability. We control raw material selection right down to solvent batches and can flag any supply chain variation. For projects with sensitivity to even trace metal content or color, we can adapt cleaning or filtration protocols before the next shipment even ships.
Rather than keeping specs behind closed doors, we share our analytical methodology, including detection limits and reference traces. For regular buyers, we often provide small batch retention samples for independent validation. When batch deviations occur, we proactively notify all potentially affected clients—and we’ll freely own up to any mistake. This attitude helps cement long-term partnerships, and has helped several clients move away from nameless, faceless trading companies that only take orders and move boxes.
We support chemists across continents. Regional packaging and labeling requirements are always met, and documentation is produced in sync with whichever regulatory agency is relevant. For out-of-country buyers, we know how important rapid customs clearance and predictable timelines are. Shipments include electronic batch files sent ahead, and our logistics partners confirm drum conditions before loading at port. We have trilingual reps available to clarify questions and support custom labeling or handling as local regulation evolves.
Plenty of suppliers make promises on paper, but we encourage every buyer to benchmark our product in their process. Many future-hardened processes are field-proven in our own R&D spaces and at customer locations, not just on bench scales. We routinely accept sample requests, and support dozens of collaborative projects with field feedback informing both scale-up and process refinement. A number of customers have invited our team into their labs or plants to observe real-world results, and we always welcome the chance to learn and improve.
Anyone looking to upgrade their supply chain for this crucial intermediate should consider both the chemical’s acceptability in complex syntheses and the dependability of their supplier. Our doors are always open for technical discussion, data review, or partnership exploration—because we see robust supply as more than a single transaction. It means years of productive collaboration and transparent improvement. If your procurement or laboratory group is looking to improve outcomes, save costs on purification, or guarantee batch reproducibility for high-stakes projects, consider the hands-on approach a genuine manufacturer provides.
Ethyl 2-benzylacetoacetate might look like just another ester compound to outsiders, but to us and our buyers it represents decades of learning, adjustment, and honest feedback between chemists, engineers, and supply teams. Every new use case pushes us to refine and improve process steps: greener synthesis, more efficient recovery of solvents, less overall waste. Our approach means every new client, project, or application brings us closer to the ideal—both technically and in terms of reliability. As the markets we serve evolve, and as regulations sharpen, those old shortcuts and abstract promises lose ground to transparency and teamwork at all steps of the supply process.
