|
HS Code |
774998 |
| Cas Number | 33361-53-2 |
| Iupac Name | N-benzyl-3-oxobutanamide |
| Molecular Formula | C11H13NO2 |
| Molecular Weight | 191.23 g/mol |
| Appearance | White to off-white solid |
| Melting Point | 80-84°C |
| Solubility In Water | Slightly soluble |
| Smiles | CC(=O)CC(=O)NCC1=CC=CC=C1 |
| Inchi | InChI=1S/C11H13NO2/c1-9(13)7-11(14)12-8-10-5-3-2-4-6-10/h2-6H,7-8H2,1H3,(H,12,14) |
| Synonyms | N-Benzylacetoacetamide; Acetoacetic acid N-benzylamide |
As an accredited N-benzylacetoacetamide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 250g of N-benzylacetoacetamide is packaged in a sealed, amber glass bottle with a secure screw cap and detailed labeling. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for N-benzylacetoacetamide: Typically packed in 25kg drums, totaling 8–10 metric tons per 20-foot container. |
| Shipping | N-benzylacetoacetamide should be shipped in tightly sealed containers, compatible with amides, and clearly labeled. Store and transport the chemical in a cool, dry place, away from direct sunlight, ignition sources, and incompatible materials. Follow all local regulations and ensure appropriate documentation and safety data accompany the shipment. |
| Storage | N-benzylacetoacetamide should be stored in a tightly sealed container, in a cool, dry, and well-ventilated area away from sources of ignition and incompatible materials such as strong oxidizers. It should be protected from moisture and direct sunlight. Proper labeling and secure placement reduce the risk of accidental exposure or contamination. Personal protective equipment should be accessible when handling. |
| Shelf Life | N-benzylacetoacetamide typically has a shelf life of 2–3 years when stored in a cool, dry, and well-sealed container. |
Competitive N-benzylacetoacetamide prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615371019725 or mail to sales7@boxa-chem.com.
We will respond to you as soon as possible.
Tel: +8615371019725
Email: sales7@boxa-chem.com
Flexible payment, competitive price, premium service - Inquire now!
In the day-to-day operations at our chemical manufacturing facility, we’ve seen the landscape of organic intermediates shift toward specialized, high-value molecules. Among these, N-benzylacetoacetamide continues to play a pivotal role for teams that demand reliability, chemical stability, and clear synthetic advantages in both research and scaled-up manufacturing. Despite the trend towards diversification among building blocks, feedback from process engineers and development chemists keeps coming back to the same point: simplicity and consistency lead to smoother operations. That’s precisely the philosophy guiding our N-benzylacetoacetamide offering.
This compound, produced under strict in-house protocols, carries a molecular formula of C11H13NO2 with a purity that reliably reaches above 99% by HPLC. We run extensive GC-MS and NMR checks, not just as a box-ticking exercise, but because we understand the logistics headaches poor-quality intermediates cause further down the chain. Often, problems arise not from large-scale synthesis but from trace impurities. Consistent feedback from partners has highlighted how tighter control over water content—kept securely below 0.5%—prevents downstream issues, particularly where moisture-sensitive couplings or reactions are involved.
Every batch undergoes hands-on troubleshooting by our technical staff. If we notice even a minor deviation during crystallization or solvent removal, the lot goes straight back for review. This approach may not win awards for speed, but it saves us and our partners costly interruptions and failed runs. The melting point hovers closely around 91-93°C, and we use differential scanning calorimetry to confirm thermal behaviors, ensuring there are no surprises during scale-up or isolation steps.
In our experience talking directly with medicinal chemistry teams and formulation scientists, N-benzylacetoacetamide stands out not for showy novelty but for dependable behavior under a wide range of conditions. Its main appeal lies in the controlled activation of its acetoacetamide moiety and the robust benzyl group, which offer reliable transformation routes without the reactivity risks found in some analogues.
For example, when synthesizing complex heterocycles or building new scaffolds, feedback tells us our customers prefer this intermediate for its clean reaction profiles. Many researchers avoid analogs with higher reactivity at the amide, citing the side reactions and tough purifications that follow. In contrast, the N-benzyl group moderates nucleophilicity and limits unwanted acyl migration or decomposition, leading to cleaner downstream chemistry—as confirmed by side-by-side lab tests using competitor products, which often show ghost signals in their NMR spectra from traces of N-debenzylation.
Through direct cooperation with pharma and agrochemical innovators, we’ve learned that small differences in raw material stability alter not only yields but also final product quality. Demand for N-benzylacetoacetamide centers on three main applications: formation of novel pyrazole derivatives, as a starting point for certain anti-inflammatory and anticonvulsant molecules, and as an intermediate in modifying natural products. Each of these applications imposes its own demands on solvent compatibility, scale, and ease of purification.
Take the preparation of functionalized pyrazoles as an example. During one partnership with a medicinal chemistry startup, our technical staff worked alongside their laboratory team, fine-tuning the solvent crystallization to avoid caking. Their original supplier delivered product with occasional residual toluene, which interfered with their cyclization step at high temperature. After switching to our N-benzylacetoacetamide, made with extra vacuum stripping and robust QC, their yields improved and so did the reproducibility. These are not isolated incidents; the actual users in pilot plants and kilo labs regularly share similar feedback.
On the surface, N-benzylacetoacetamide may seem part of a crowded family of acetoacetamide derivatives—ethyl, methyl, and other N-alkyl or aryl variants all ring a bell for anyone in synthetic chemistry. Even so, our technical observations make a clear case for why this molecule enjoys an edge. Compared to N-methyl or N-ethyl acetoacetamide, the benzyl group lends greater protection and bulk, supporting site-selectivity in subsequent condensations and alkylations.
Process chemists mention improved handling safety due to its lower volatility compared to shorter-chain analogs. There’s less inhalation risk, and the odor threshold, while still obvious, remains more manageable than with some smaller amides. Sourcing teams prefer N-benzylacetoacetamide when running reactions in open setups, reporting less operator fatigue and safer air quality.
Another distinction comes in reaction control. The slightly increased steric hindrance of the benzyl group dampens uncontrolled side reactions. Analytical runs on crude product typically show fewer peaks in both LC-MS and TLC, reducing purification steps—a point lab teams appreciate when under pressure for quick turnarounds.
Supply security runs deep at every stage of our operation. We oversee all the steps—from benzyl chloride sourcing to the final lot packaging—avoiding reliance on vendors known for inconsistent quality. Over several years, customers have shared stories of project delays due to supply breaks or last-minute out-of-spec batches from brokers. To prevent such risks, our facility only approves new raw material lots after both in-house and external verification, and we retain control over inventory levels by monitoring demand forecasts in direct discussion with our largest partners.
By rooting our production strategy in first-hand feedback, we’ve closed gaps that other platforms consistently leave open. For instance, some regional trading companies ship acetoacetamides in packaging that can leach plasticizers or allow in humidity. We supply in moisture-proof, inert-lined packaging with nitrogen backfilling on every drum, cutting down caking and hydrolysis risks. Incoming QC rejects containers even at the faintest sign of compromised barriers.
Over the years, laboratory managers and project leaders shared requests for better wettability in water-miscible systems and reduced foaming during charge-in. Taking these practical issues into account, our technical staff adjusted recrystallization conditions and drying protocols. The result? Shorter dissolution times and more predictable mixing during both small-batch and plant-scale operations.
Direct feedback on the shipment form factor also reshaped our logistics. Earlier, we received plenty of criticism about powder caking and physical compacting in large tubs, especially after overseas transit. To respond, our packaging now features smaller, tamper-sealed drums, which customers say make for smoother inventory tracking and easier portioning at the point of use.
All continuous improvements stem from walking the shop floor and standing at the reactor during batch synthesis, not from reviewing spreadsheets. Our process technicians actively sample intermediates during the reaction and after each filtration step, relying on real-time analytics. Instead of banking solely on endpoint analyses, they intervene whenever the pH shifts or filtration times run long, tackling the issue at its source.
Once the lot is complete, our QC laboratory conducts an array of impurity assays—not just because regulations demand them, but because we’ve seen too many problems in the field caused by untracked by-products. One incident involved a spike in color impurities due to faulty solvent recycling at a customer’s plant. We worked onsite to pinpoint the root cause: an oxidized contaminant that can build up if a minor processing error occurs during N-benzylacetoacetamide handling. Sharing this data, along with practical fixes, helped both our team and the customer maintain a higher bar for purity and process safety.
There’s an ongoing misconception outside the manufacturing sector that online specifications and standardized safety sheets cover all real-world safety factors. Reality differs. Quality issues rarely stem from major deviations—they start with small oversights: a drum stored too close to a steam line, an unnoticed leak in a blending tank, a few hours at elevated moisture content.
We support our partners not only on paper but at their facilities, helping troubleshoot everything from storage conditions to processing variables during scale-up. Real feedback prompted changes to our recommended shelf life: after seeing a drift in color and reactivity when early lots of N-benzylacetoacetamide sat longer than twelve months, we now stamp every shipment with a proven use-by window and provide tailored shipment schedules for larger users.
As active participants in global regulatory compliance, we take seriously the responsibility for ensuring every consignment is documented, traceable, and suited to the recipient country’s import requirements. This practice prevents unforeseen customs holds and reassures both purchasing agents and technical teams of the product’s journey from our facility to their bench or reactor.
Continued advances in chemical manufacturing depend not on standalone expertise, but on actively listening to the people who ultimately depend on the materials for their own solutions. Over the past decade, we’ve collected candid insights from synthetic chemists, process engineers, and R&D leads. Their experience consistently highlights the same benefits for N-benzylacetoacetamide: ease of scale-up, reduced troubleshooting during synthesis, and improved batch reproducibility.
One senior scientist told us that switching to our batches dropped their purification time by more than a third. This kind of feedback led us to analyze solvent residue profiles more rigorously and tighten post-processing: smaller gains, but amplified a hundredfold when running back-to-back lots in an industrial setting. The operational efficiency this brings may never make headlines, but for the teams who stake both reputations and resources on reliable yields, it marks the difference between deadlines met and projects stalled.
We’ve put market samples to the test. Recent studies in our on-site QC lab ran direct head-to-head comparisons, tracking moisture content drift, physical caking, and off-gassing during storage. The results highlight that even minor discrepancies in formulation—an extra 0.3% solvent residue, a slightly broader melting range—can lead to hours of production delays or lost material. Our technical team, by tackling these details one-by-one, maintains a product line that holds up in real world, not just in spec sheets.
It’s not about having the flashiest certificate of analysis, but about keeping failures from reaching the customer. We keep an open line for customer reports, and all feedback directly shapes our processing routines. If our partner reports clumping or discoloration, we collect returned samples, isolate the offending fraction, and rework the batch if needed. Short-term margins never outweigh long-term reliability; we’ve found this builds mutual trust and keeps both projects and partnerships moving forward.
N-benzylacetoacetamide’s staying power in the toolbox of modern chemistry results from its combination of balanced reactivity and practical handling. As regulatory requirements get stricter, and downstream synthesis grows more complex, our development team partners with users to troubleshoot application-specific challenges—from solvent compatibility to transition metal-catalyzed transformations. Our technical staff conduct on-site training for proper weighing, transfer, and dissolution under production conditions, reflecting an ongoing investment in knowledge-sharing, not just product delivery.
Ongoing investment in environmental controls, solvent recovery, and batch optimization forms the backbone of future capacity expansion. We experiment with greener solvents and more energy-efficient crystallization. User feedback already suggested using water-reduced processing for specialized pharmaceutical synthesis, so we’ve updated our dehydration methods to supply stricter grades suited for both high-throughput screening and GMP-compliant manufacturing.
Every kilogram of N-benzylacetoacetamide shipped from our site draws on a constant loop of technical feedback, data-driven modifications, and practical learning. At the end of the day, the real endorsement isn’t a glossy brochure, but the number of repeat partners who rely on our product year after year. As long as the field demands detailed control, reliability, and solutions built on direct experience, we stand committed—not just to making a chemical, but to supporting its application in the hands of those who build the breakthroughs of tomorrow.
