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HS Code |
365614 |
| Product Name | 5-Bromo-6-chloro-pyridine-2-carboxylic acid |
| Cas Number | 292632-98-5 |
| Molecular Formula | C6H3BrClNO2 |
| Molecular Weight | 236.45 |
| Appearance | Off-white to light yellow solid |
| Melting Point | 150-154°C |
| Solubility In Water | Slightly soluble |
| Purity | Typically ≥ 98% |
| Smiles | C1=CC(=NC(=C1Br)Cl)C(=O)O |
| Synonyms | 2-Carboxy-5-bromo-6-chloropyridine |
| Storage Temperature | Store at 2-8°C |
| Hazard Statements | May cause irritation |
As an accredited 5-BroMo-6-chloro-pyridine-2-carboxylic acid factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The 25g quantity is securely packaged in a sealed amber glass bottle, labeled with product name, CAS number, and safety information. |
| Container Loading (20′ FCL) | 20′ FCL loaded with securely packed, sealed drums of 5-Bromo-6-chloro-pyridine-2-carboxylic acid, compliant with export chemical handling standards. |
| Shipping | The chemical **5-Bromo-6-chloropyridine-2-carboxylic acid** is shipped in tightly sealed containers, protected from moisture and light. It is packaged according to hazardous material regulations, with appropriate labeling and documentation. The shipment is handled by certified carriers, ensuring compliance with safety and environmental guidelines to prevent leaks or accidental exposure. |
| Storage | 5-Bromo-6-chloropyridine-2-carboxylic acid should be stored in a tightly sealed container, in a cool, dry, and well-ventilated area, away from direct sunlight and incompatible substances such as strong bases or oxidizers. It should be kept at room temperature, protected from moisture. Proper labeling and handling precautions, including the use of gloves and eye protection, are recommended during storage and handling. |
| Shelf Life | 5-Bromo-6-chloro-pyridine-2-carboxylic acid has a typical shelf life of 2-3 years when stored in cool, dry conditions. |
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Purity 98%: 5-BroMo-6-chloro-pyridine-2-carboxylic acid with a purity of 98% is used in pharmaceutical intermediate synthesis, where it ensures high reaction yield in heterocyclic compound formation. Melting point 210°C: 5-BroMo-6-chloro-pyridine-2-carboxylic acid with a melting point of 210°C is used in high-temperature organic synthesis, where it maintains structural integrity throughout the reaction process. Particle size < 10 μm: 5-BroMo-6-chloro-pyridine-2-carboxylic acid with particle size less than 10 μm is used in fine chemical production, where it enhances dissolution rate in solvent systems. Stability temperature up to 80°C: 5-BroMo-6-chloro-pyridine-2-carboxylic acid with stability temperature up to 80°C is used in prolonged storage for research reagents, where it preserves chemical purity over time. Moisture content ≤ 0.5%: 5-BroMo-6-chloro-pyridine-2-carboxylic acid with moisture content less than or equal to 0.5% is used in analytical laboratories, where it prevents unwanted hydrolysis during quantification studies. Molecular weight 237.46 g/mol: 5-BroMo-6-chloro-pyridine-2-carboxylic acid with molecular weight of 237.46 g/mol is used in reference standard preparation, where it provides reliable calibration for mass spectrometry analyses. |
Competitive 5-BroMo-6-chloro-pyridine-2-carboxylic acid prices that fit your budget—flexible terms and customized quotes for every order.
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Every manufacturer develops a relationship with their core compounds—a sense for their quirks, reactivity, and the places they shine. In our years of producing 5-BroMo-6-chloro-pyridine-2-carboxylic acid, the hands-on experience matters more than any datasheet could possibly convey. Chemists in our network, from research facilities to production lines, favor this compound for its reliable behavior under repeated syntheses and for its useful balance of reactivity and stability.
The model we produce carries a CAS number 1186197-08-3 and a molecular formula of C6H2BrClNO2. This particular arrangement, with a bromine atom at the five position, a chlorine at six, and a carboxylic acid group at the two position, turns a pyridine backbone into a valuable intermediate for the pharma and agrochemical sectors. Many downstream products rely on this substitution pattern, so precision at each stage of synthesis is crucial.
In practice, the stated purity—often at or above 98% by HPLC—tells only one part of the story. What customers really notice is the lot-to-lot reliability. Batch homogeneity, low residual moisture, and the way the powder moves and dissolves during formulation contribute to trust in long-term supply agreements. This is one compound where appearance can offer clues: fine, almost snow-white crystalline powder, free-flowing and free from the tackiness or discoloration that signals impurities. We don’t take these features for granted. Every batch undergoes rigorous internal checks using validated HPLC, melting range analysis, and both NMR and MS spot-checks in accordance with current protocols.
Chemists depend on predictable melting points—typically around 220°C—and a consistent elemental analysis, not just because they expect a spec sheet to match, but because process failures create expensive downtime. Over years of direct feedback, we recognize how a subpar batch ripples out across an entire production line. That’s the pressure that keeps our teams sharp and our process engineers on constant alert for variables in solvents, local water quality, and handling.
Use cases in the pharmaceutical industry top the list, especially in the early stages of developing active ingredients for anti-inflammatory and neuroactive compounds. What draws formulators to this molecule is its functional group architecture, which supports Suzuki coupling and other cross-coupling reactions used to create more complex scaffolds. This makes the compound ideal for drug discovery projects requiring precision in building blocks.
Agriculture has become another focal point. In crop protection chemistry, specialty herbicides and fungicides demand intermediates that can anchor active motifs. The presence of both halogen atoms and a pyridine core gives this compound an edge, especially in reaction schemes requiring selective activation. As newer crop protection compounds evolve to meet resistance challenges, intermediates like 5-BroMo-6-chloro-pyridine-2-carboxylic acid play a quiet but indispensable role.
Some large-scale material science laboratories also explore this compound for its ability to introduce functionality into advanced polymers and specialty coatings. Those applications don’t grab headlines, but they drive significant demand behind the scenes, especially in markets targeting high-performance and long-lifetime components.
It’s one thing to publish an assay or meet a threshold on a lab report. Repeatable real-world performance marks a separation between genuine manufacturing quality and commodity-grade copies. We have witnessed key distinctions over time. Lesser quality batches sourced from non-dedicated lines often show higher levels of organic impurities, stemming from cross-contamination, recycled reactants, or uncontrolled quenching. Trace contaminants might pass a single analytical hurdle but create headaches in scale-up. Such lapses translate into extra purification steps, yield losses, or batch rejections down the line—a headache for those managing pilot or commercial production.
Our facility runs only aromatic carboxylates or related nitrogen heterocycles on this line, without mixing in aggressive sulfonation or thiolation campaigns. Equipment is stainless steel and glass-lined for easy cleaning. This commitment to tight operational boundaries prevents many avoidable nonconformities. For example, strict segregation keeps residual halide levels steady and avoids the trace color or odor that stems from cross-contact with heavier aromatics.
Quality management starts before the synthesis step. Reagent quality—sourced from vetted suppliers, always with controlled water content and low peroxide index—predicts the outcome before the first reaction is charged. Solvent recovery rates, vessel agitation speeds, and reaction temperature profiles get logged manually and digitally, creating a layered overview of every campaign. Every seasoned supervisor knows trouble often starts with a one-degree deviation, a slight pH error, or a simple oversight in timing—so responsibility during batch preparation comes with hands-on oversight and full accountability.
Every shipment undergoes retained sample analysis, including checks of not just purity but solubility behavior in application-relevant solvents—often DMF, THF, and ethyl acetate. These hands-on checks simulate real user handling on plant scale. For years, technical feedback, such as ease of filtration and drying times, pushed us to adjust our crystallization step and drying protocols—saving our downstream partners measurable time.
These efforts feed back into the production schedule. Instead of pushing for quickest throughput, we prioritize downtime for cleaning, routine equipment strip-downs, and even minor upgrades to filtration mesh and drying ovens. That way, each lot passes out clean, dry, and with impurity levels below detection limits, not hovering on the edge of acceptance.
Not every difference is immediately obvious to the naked eye. Sometimes, an otherwise good batch reveals its weaknesses only after a dozen downstream steps or in a high-volume stress test. For example, a customer trialing our 5-BroMo-6-chloro-pyridine-2-carboxylic acid in a new coupling protocol flagged micro-level solubility issues. That led us to trace back through historical batch records, solvent selection, and reactor clean-out logs—pinpointing not just chemical factors but also overlooked equipment calibration intervals. Fixing seemingly small operational practices had outsized impact on usability for sensitive reactions.
We maintain open lines directly with production chemists, not just procurement. End-use feedback—right down to filtration time and residual content complaints—feeds back straight to our process control teams. Over years, anecdotal issues (such as slow filtration or batch-to-batch color shifts) have prompted real changes, from upgrading purification columns to fine-tuning the seeding temperature during crystallization. These fixes rarely get captured in a spec sheet, but they drive sustained performance for every serious user.
Traceability means every kilogram shipped links back to both operator logs and digital records. This system catches not just major issues, but also subtle shifts over seasons, equipment upgrades, or raw material supplier changes. Establishing root causes and fixing them quickly saves partners from lost batches and process upsets. In-house staff take pride in not seeing rejected shipments come back—reliability here carries real meaning.
Many buyers can find 5-BroMo-6-chloro-pyridine-2-carboxylic acid in catalogs worldwide. Pricing and stated purity levels may look similar. Years of practice show the practical differences. Hands-on professionals appreciate consistent powder handling, wettability, and drying profiles. Customers who care about overall process economics ask for documentation proving consistency, not just a one-off certificate of analysis. Feedback from process engineers drives us to keep impurity profiles tight and physical specifications steady over years.
Certain research institutes have told us how switching to more consistent material simplified scale-up and improved yields. They avoided protracted troubleshooting sessions, and their R&D staff brought new candidate molecules forward more quickly. Feedback from the agrochemical sector echoes the importance of having reliable material for pilot plant runs—a missed delivery window here means entire crop seasons impacted, with all the cost and reputational risk that entails.
Some differences aren’t so obvious until scale-up. For instance, the way the product flows, its compressibility, and how long it takes to dissolve all matter much more at a 200-liter reactor scale than a 100-gram lab test. Our production lines emphasize small but cumulative improvements to powder properties, which over months translates to easier handling and reduced batch variation.
In factory settings, every experienced operator understands the hazards and precautions involved with pyridine derivatives and halogenated organics. Well-ventilated spaces, thoroughly trained staff, and appropriate glove and goggle use prevent routine mishaps, but the real safeguard comes with ingrained habits—a careful eye for residue, routine cleaning, and measured allocations during daily use. Quick, careless handling shortcuts are easy to spot but invite trouble, so we emphasize shared responsibility and regular retraining.
Waste management often creates complexity, given regulations surrounding halogenated organics. Our in-house waste stream separates halogenated residues, collects mother liquors for controlled treatment, and records each kilogram for regulatory reporting. Many downstream users have adapted our guidelines to streamline their own hazardous waste management, minimizing compliance headaches and keeping operations clean.
Regulatory requirements in our field evolve in step with both environmental and workplace safety standards. With each change—be it new emissions caps, revised REACH guidelines, or expanded documentation—our technical team reviews and adapts both procedures and testing frequencies. New regulatory filings demand not just baseline compliance, but proven process controls, transparent sourcing of materials, and the ability to track every lot through its full lifecycle.
Customers value proof, not promises. We provide full transparency into our supply chain from starting material procurement through the drying and packaging steps. Every shift supervisor and every testing technician knows their role matters, both for routine compliance and for the long-term credibility of the finished product.
Anyone who works with 5-BroMo-6-chloro-pyridine-2-carboxylic acid daily knows the value of a steady hand and careful eyes. Advancements in areas like continuous processing, automated real-time analytics, and modular reactor technology all have potential to push performance further. Yet, the reality of the shop floor—skilled operators, well-trained chemists, checked instrumentation—forms the backbone of every strong batch.
We keep close relationships with application specialists and field chemists, gathering insights from real-world use. This feedback loop drives fine adjustments to how we prepare and deliver product, from drying cycle tweaks to adjusting particle size distribution. For those who value their work in downstream synthesis, these incremental refinements make a day’s work smoother and a project’s progress more predictable.
As environmental and end-user pressures grow, manufacturing has to meet new sustainability targets without sacrificing performance or consistency. We’re investing in waste minimization, solvent recycling, and more efficient route scouting for production. This keeps us ahead of future requirements and supplies customers with both a reliable product and full confidence in its responsible manufacture.
Over many years, we’ve learned that steady performance matters more than buzzwords or glossy marketing promises. A compound like 5-BroMo-6-chloro-pyridine-2-carboxylic acid gains value not just from its molecular structure, but from the reliability that teams build into every batch. Customers return for the peace of mind that comes with knowing tomorrow’s shipment will perform like today’s. We draw motivation from the pride that comes with consistent delivery and the satisfaction that comes when our materials help others reach their goals, whether that’s a new pharmaceutical candidate, a crop protection breakthrough, or an innovative materials development.
Trust in chemistry comes from those who make it, test it, and use it daily. Every stakeholder deserves a partner who takes responsibility seriously—who delivers more than just a labeled bag, but a commitment backed by skill and real-world experience.
