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HS Code |
506601 |
| Product Name | Ethyl 2-bromopyridine-5-carboxylate |
| Cas Number | 41203-81-0 |
| Molecular Formula | C8H8BrNO2 |
| Molecular Weight | 230.06 |
| Appearance | Pale yellow liquid |
| Boiling Point | 309.6 °C at 760 mmHg |
| Density | 1.53 g/cm3 |
| Purity | >98% |
| Flash Point | 140 °C |
| Solubility | Slightly soluble in water; soluble in organic solvents |
| Smiles | CCOC(=O)C1=CN=C(C)C=C1Br |
| Refractive Index | 1.567 |
| Storage Condition | Store in a cool, dry place, away from light |
| Synonyms | Ethyl 2-bromo-5-pyridinecarboxylate |
As an accredited Ethyl 2-bromopyridine-5-carboxylate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Ethyl 2-bromopyridine-5-carboxylate, 5g, supplied in a sealed amber glass bottle with tamper-evident cap and printed label. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): Typically loaded with 10-12 MT of Ethyl 2-bromopyridine-5-carboxylate in securely sealed drums or totes. |
| Shipping | Ethyl 2-bromopyridine-5-carboxylate is typically shipped in tightly sealed containers, protected from moisture and light. It is transported as a hazardous chemical according to relevant regulations. Proper labeling and documentation are required, and handling by trained personnel is recommended. Storage should be in a cool, dry place away from incompatible substances. |
| Storage | Store Ethyl 2-bromopyridine-5-carboxylate in a tightly sealed container, in a cool, dry, and well-ventilated area away from heat, ignition sources, and incompatible materials such as strong oxidizing agents. Protect from moisture and direct sunlight. Keep the storage area well-labeled and restrict access to trained personnel. Use secondary containment to avoid accidental spills or leaks. |
| Shelf Life | Ethyl 2-bromopyridine-5-carboxylate typically has a shelf life of 2-3 years when stored in a cool, dry, sealed container. |
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Purity 98%: Ethyl 2-bromopyridine-5-carboxylate with 98% purity is used in pharmaceutical intermediate synthesis, where high purity ensures minimal side-product formation. Melting point 60–63°C: Ethyl 2-bromopyridine-5-carboxylate with a melting point of 60–63°C is used in solid-phase peptide synthesis, where controlled melting characteristics support precise processing conditions. Stability at 25°C: Ethyl 2-bromopyridine-5-carboxylate stable at 25°C is used in chemical storage for research laboratories, where thermal stability enhances shelf-life and reduces decomposition risk. Particle size <200 µm: Ethyl 2-bromopyridine-5-carboxylate with particle size below 200 µm is used in formulation of reagent blends, where fine particle size promotes uniform dispersion and improved reactivity. Moisture content <0.5%: Ethyl 2-bromopyridine-5-carboxylate with moisture content below 0.5% is used in moisture-sensitive coupling reactions, where low water content prevents unwanted hydrolysis. Molecular weight 244.03 g/mol: Ethyl 2-bromopyridine-5-carboxylate with a molecular weight of 244.03 g/mol is used in analytical method development, where precise molecular mass enables accurate quantitative analysis. Assay by HPLC ≥99%: Ethyl 2-bromopyridine-5-carboxylate assayed by HPLC at ≥99% is used in high-purity reagent preparations, where stringent assay ensures consistent chemical performance. Solubility in DMSO: Ethyl 2-bromopyridine-5-carboxylate with excellent solubility in DMSO is used in medicinal chemistry screening, where high solubility facilitates efficient compound delivery in assays. |
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At our plant, few molecules reflect the value of careful process control and raw material quality quite like Ethyl 2-bromopyridine-5-carboxylate. Day after day, you learn that consistency brings peace of mind to chemists, especially those in the pharmaceutical and agrochemical fields. We start each batch knowing a single impurity can derail downstream processes. Every drum of this product represents not just effort but hundreds of hours validating purification and safety standards.
We see a strong demand from research labs and industrial manufacturers looking for intermediates that help save steps in complex syntheses. Ethyl 2-bromopyridine-5-carboxylate carries great value in this regard. The substitution at the 2-bromo and 5-carboxylate positions widens the scope for transformations, letting others build targeted heterocycles, active pharmaceutical ingredients, or agrochemical agents. Choosing this compound often means a chemist can skip a multi-step halogenation.
This is no theoretical matter for us. Over the years, feedback from customers has confirmed how selecting the right intermediate keeps projects on schedule. One poorly controlled or contaminated shipment can result in lost productivity, wasted time, or even regulatory delays down the line. As producers, we keep these pain points at the front of every production run.
When you measure what matters, precision follows. Our Ethyl 2-bromopyridine-5-carboxylate comes with a specification closely monitored by our internal quality team. Typical lots are produced under anhydrous conditions, and our route avoids unnecessary byproducts. We commit only to purity levels that truly support downstream reaction requirements—usually reaching or exceeding 98%. This exceeds what many casual traders offer. In routine batches, tight control of water, halide, and residual pyridine content reduces interference with coupling reactions, nucleophilic substitutions, or ester transformations.
Color, melting point, and solubility all carry practical implications, especially when you handle larger volumes. Crystal formation must be reliable for easy handling and minimal dust, since some customers scale up quickly from gram to multi-kilo quantities. Storage stability is another detail that matters more as order size increases. Our experience shows that moisture uptake or residual acids can degrade material during shipping. To address that, we select packaging designed to minimize exposure from our facility all the way to the end user. In every shipment, our team double-checks for lot uniformity—this is not just a compliance box to tick. If a batch risks failing your downstream use, our lab rejects it first, not yours.
Anyone comparing Ethyl 2-bromopyridine-5-carboxylate with other pyridine derivatives will notice that the 2-bromo position enables distinct reactivity patterns. Other isomers like the 3- or 4-bromo variants sometimes add unnecessary synthetic headaches, especially if regioselectivity matters in the following steps. This compound lets you leverage selective metalation and cross-coupling strategies that minimize byproduct formation and waste.
We have observed research teams waste time optimizing for accessibility or reactivity only to discover the wrong isomer introduced limitations in yield or required extra purification. The carboxylate ester group in the 5-position provides a handle for further derivatization. From customer feedback, those running Suzuki or Stille coupling reactions report fewer side-reactions compared to analogous chloride or iodide versions. One of the recurring reasons clients come back is this track record of reliability.
I remember the first time we ran a side-by-side with the 2-chloro isomer. The brominated product handled cross-coupling at milder conditions, keeping yields high and costs under control. By focusing production on the 2-bromo structure, we have become increasingly skilled at resolving subtle purity issues—one advantage that rarely makes it into product summaries but makes a daily difference in real-world operations.
Scaling any heterocyclic intermediate brings its own challenges, especially when it comes to regulatory and environmental stewardship. Pyridine ring chemistry presents complications: odor, sensitivity to oxidation, and strict emission control. Over many years, we have invested in dedicated containment and scrubbing systems. This ensures we meet both regulatory and safety goals, but beyond that, it allows us to keep offering uninterrupted supply chains to customers who value reliability.
Our team notices the difference when the production line runs at capacity. We see that small issues, like solvent residue or incomplete washing, can lead to safety hazards or product loss. So we built in extra quality checkpoints, combining traditional GC/HPLC methods with real-time in-line monitoring. This blend of approaches gives our technical team a fast read on process deviations long before packages ever leave our warehouse.
Instead of viewing these controls as a burden, we see them as an investment—customers in drug discovery or agrichemical research often cannot tolerate even minor variations in starting materials. Over the past two years, as global regulatory scrutiny on supply chain transparency has increased, our focus on these checkpoints helps partners meet their own quality documentation requirements. In many ways, we set our standards higher than some regulatory minimums, aiming for customer satisfaction and fewer disruptions.
The story of our Ethyl 2-bromopyridine-5-carboxylate is tied to the relationships we build with end users. Many of our customers run complex synthetic routes where even small delays can turn into financial or scientific setbacks. We know from direct experience that project managers hate surprises—so our planning department maintains transparent inventory projections and forecasts. We keep close communication, listening to customers as they relay changing research priorities or volume increases.
We’ve acted on feedback over the years. After one customer struggled with scale-up solvents, we re-optimized crystallization and introduced a more robust drying step. The result? Fewer dissolved impurities and improved shelf life for large-scale batches. Another partner pointed out how static buildup in certain seasons affected product handling, so we shared insights into safe grounding and anti-static procedures, honed from years of bulk packaging.
Every shipment creates a dialogue. Clients often ask questions about real-world application results, not just theoretical physicochemical data. By keeping our technical and sales teams aligned, we offer accurate information drawn from active process experiments, not just datasheets.
Customers, especially those developing new active ingredients or scaling up pilot runs, want to avoid any surprises as their projects move forward. We have learned the value of honest communication—if a production lot faces an unexpected issue, we alert our partners right away. By doing so, we build trust and help clients adjust their internal schedules before real delays mount.
Making niche pyridine derivatives means balancing output with responsibility. From raw material selection through to packaging, each step involves rigorous hazard assessment and waste minimization. The byproducts generated during bromination and esterification require specialized waste management. To keep our operations compliant, we oversee regular audits and train our staff to spot potential trouble spots. Local authorities sometimes conduct inspections without prior notice, and our antidotes to non-compliance are standardization and thorough recordkeeping.
One aspect often missed by outsiders is the impact of solvent emissions and process waste. We made substantial capital investments in solvent recovery units, converting what would have been waste into reusable feedstock that meets our QC standards. The environmental upside means less landfill or hazardous disposal, supporting our mandate to protect both community health and our team.
During the global supply chain crunch, sourcing sustainable raw materials for bromination became much tougher. We tackled the uncertainty with forward contracts and direct relationships with upstream suppliers. This helped us secure feedstocks that kept quality intact while resisting price spikes. More importantly, we documented sourcing lineage—something that many customers rely on today to fulfill their own traceability programs.
Customers often check certificates of analysis closely. For those in regulated environments, we provide comprehensive analytical data and batch records alongside our shipments. We know from feedback this forms a critical part of drug master files, especially when moving to application for regulatory approval of new products.
Research and development teams use Ethyl 2-bromopyridine-5-carboxylate as a building block to access a broad set of molecules. Despite an optimized synthesis, nobody escapes the challenges of scale—insolubles, trace contaminants, or batch-to-batch variability matter more than a tidy technical description ever reveals.
Over time, we’ve discovered that storage at low humidity and controlled temperature prevents unwanted hydrolysis or decomposition. We recommend customers avoid long transfers or sub-dividing the product in uncontrolled environments—one spilled drum can spoil a whole day’s work. This insight comes from stepping in to remediate “mystery” failures experienced by clients unfamiliar with the quirks of this class of intermediates.
For those running pilot to plant-scale synthesis, consistency from order to order gives them a fighting chance of scaling successfully. Each feedback cycle with end users shapes our packaging formats and shipping frequencies. Whether a group is targeting oncology drug candidates, insecticides, or specialty polymers, the organic chemists running these projects trust the raw materials most after they see them perform reliably over multiple lots.
Lab chemists and plant managers sometimes debate whether to order smaller test samples or scale straight to multi-kilo quantities. Based on what we’ve observed, running early stage compatibility and process checks with 99+% pure material almost always improves process validation rates later. For many of our partners, this means fewer aborted pilot runs and closer alignment with project milestones.
Comparing Ethyl 2-bromopyridine-5-carboxylate with other halogenated or esterified pyridines brings out its unique place in synthetic chemistry. Unlike less reactive halides, the 2-bromo position allows for faster coupling under palladium catalysis—a critical point when scaling high-value APIs or screening new chemical spaces. The ethyl ester moiety at the 5-position increases solubility in common organic solvents, meaning less time spent finding alternative solvent systems or tweaking process parameters.
I have seen chemists switch to this intermediate after repeated problems with other variants that create more tars or require harsh conditions for further modification. Structural differences shape these everyday pain points. It’s not abstract chemistry—impurities and altered reactivity show up as lost yield or difficult purifications, not just in NMR spectra but in the actual flow of work.
We have tested a wide range of isomers and analogues in our own labs, measuring not only final purity but handling properties, odor control, and storage stability. Our own teams notice the reduced detritus during downstream processing, translating to quicker equipment cleanouts and shorter process shutdowns. These details carry real-world impact, especially for those juggling several candidate routes at once.
Every time a customer sends detailed feedback, we use it to troubleshoot or improve process conditions. Requested changes to particle size, solubility, or impurity specifications often result in adjusted process controls. Because we compete every day with both large-scale players and niche producers, our real advantage lives in this cycle of on-the-ground learning. What works in theory often bends under production realities; we bridge that gap with a willingness to revisit protocol, run extra tests, or trial new filtration methods.
Handling hundreds of kilos of Ethyl 2-bromopyridine-5-carboxylate per month brings lessons automation cannot teach. Safe transfer processes, containment for volatile organics, and rigorous drum labeling are not afterthoughts. Our team considers spills, exposure, and cross-contamination, all before product leaves the plant. Outbound shipments pass a hands-on check, not just automated printouts.
To support customers with higher purity or customized packaging, we adjust order profiles to avoid long dwell times or double-handling errors. We encourage forward planning and maintain flexibility in batch sizes. This keeps material as fresh as possible, and it lets labs and production managers plan with some confidence.
From a supply chain perspective, years of volatility have reinforced the value of strong links between producer and user. Fast, clear updates on available inventory or potential logistical delays save everyone headaches. It might sound simple, but regular communication avoids rush charges, stockouts, and, worst of all, downstream project halts.
As direct manufacturers, the difference between a reliable supply and costly project delays has unfolded before our eyes countless times. By keeping production and quality oversight in-house, we avoid third-party misunderstandings and spot problems early. Our clients value consistent points of contact, not a string of disconnected brokers who may not understand the practical details or care about long-term partnerships.
We invite feedback from those who use our Ethyl 2-bromopyridine-5-carboxylate across pharmaceuticals, agrochemicals, and materials research. The molecule continues to shape new chemical projects because customers see how it fits their synthetic strategies. They rely on proven manufacturing relationships—knowing we stand ready to adjust a spec, rerun a process, or walk them through troubleshooting if something unexpected crops up in the lab.
Behind every kilogram shipped lies a web of decisions about sourcing, purification, packing, and documentation. The professionalism and skill of our teams stem not from policies alone, but from many rounds of trial, response, and hands-on oversight. Direct manufacturing means that every drum out the door reflects a commitment to technical precision and customer satisfaction—one that endures project to project, year to year.
We do not view our job as finished once Ethyl 2-bromopyridine-5-carboxylate leaves our doors. Our service team stays available to address shelf stability, process troubleshooting, or follow-up documentation. We regularly review shipping and storage advice, sharing updated best practices as we refine our own protocols. Customers operating under Good Manufacturing Practices often seek to align their own processes with our controls. This collaboration gives them confidence when facing audits, scaling up new projects, or qualifying new production lines.
Our track record reflects a philosophy that the details matter. Whether supporting a drug discovery effort or enabling a new class of specialty chemicals, every shipment offers a chance to grow and adapt. In a market where chemical quality often determines project momentum, our focus on first-hand experience, direct oversight, and clear communication makes a true difference. You do not need to take that on faith—ask for references, review our data, or visit our facility. We welcome the scrutiny and the chance to prove the value of committed, experienced chemical production.
