|
HS Code |
675602 |
| Product Name | 5-(Bromomethyl)-2-methylpyridine hydrobromide |
| Cas Number | 86604-75-3 |
| Molecular Formula | C7H8Br2N |
| Molecular Weight | 267.96 g/mol |
| Appearance | White to off-white crystalline powder |
| Purity | Typically ≥98% |
| Melting Point | 172-176 °C |
| Solubility | Soluble in water and polar organic solvents |
| Storage Conditions | Store at 2-8°C, in a tightly closed container |
| Synonyms | 2-Methyl-5-(bromomethyl)pyridine hydrobromide |
| Smiles | CC1=NC=C(C=C1)CBr.Br |
| Ec Number | None assigned |
| Pubchem Cid | 11966313 |
| Sensitivity | Moisture sensitive |
| Hazard Class | Irritant |
As an accredited 5-(Bromomethyl)-2-methylpyridine hydrobromide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Sealed amber glass bottle containing 25 grams of 5-(Bromomethyl)-2-methylpyridine hydrobromide, labeled with hazard, batch, and storage information. |
| Container Loading (20′ FCL) | 20′ FCL can load **10MT**, packed in **200kg drums** on pallets, for **5-(Bromomethyl)-2-methylpyridine hydrobromide**, ensuring safe, efficient transport. |
| Shipping | 5-(Bromomethyl)-2-methylpyridine hydrobromide is shipped in tightly sealed containers, protected from light and moisture. It is transported as a hazardous material per regulatory guidelines, with appropriate labeling and documentation. Handling requires trained personnel, and transit includes temperature control if needed, ensuring safe and secure delivery to the recipient. |
| Storage | Store **5-(Bromomethyl)-2-methylpyridine hydrobromide** in a tightly sealed container in a cool, dry, well-ventilated area, away from sources of moisture, heat, and direct sunlight. Keep away from incompatible substances such as strong oxidizers and bases. Ensure proper labeling and limit access to trained personnel. Follow all standard chemical storage guidelines for hazardous and moisture-sensitive materials. |
| Shelf Life | 5-(Bromomethyl)-2-methylpyridine hydrobromide typically has a shelf life of 2 years if stored in a cool, dry place. |
|
Purity 98%: 5-(Bromomethyl)-2-methylpyridine hydrobromide with a purity of 98% is used in pharmaceutical intermediate synthesis, where it ensures high reaction yield and low impurity formation. Melting point 170-173°C: 5-(Bromomethyl)-2-methylpyridine hydrobromide with a melting point of 170-173°C is used in heterocyclic compound production, where it facilitates thermal stability during processing. Particle size <50 µm: 5-(Bromomethyl)-2-methylpyridine hydrobromide with a particle size of less than 50 µm is used in fine chemical formulations, where it enhances solubility and uniform reagent dispersion. Moisture content <0.5%: 5-(Bromomethyl)-2-methylpyridine hydrobromide with a moisture content below 0.5% is used in active pharmaceutical ingredient manufacturing, where it minimizes hydrolysis risk and maintains chemical integrity. Stability temperature up to 100°C: 5-(Bromomethyl)-2-methylpyridine hydrobromide with stability up to 100°C is used in pilot-scale organic synthesis, where it enables heat-resistant processing without degradation. |
Competitive 5-(Bromomethyl)-2-methylpyridine hydrobromide 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!
We have poured years of practical experience into every batch of 5-(Bromomethyl)-2-methylpyridine hydrobromide shipped from our plant. It isn’t just about making a chemical with the right IUPAC name on the drums. We know what challenges our customers share—consistent purity, reliable solubility, and low moisture content matter far beyond simple numbers on a certificate of analysis. Each reaction, batch after batch, brings learning—rooted in questions that arrive from labs, scale-up departments, and full-production reactors around the world.
5-(Bromomethyl)-2-methylpyridine hydrobromide sits at a crossroads of pharmaceutical, agrochemical, and specialty chemical research. Few molecules with a single pyridine core play such a versatile role as a building block for some of the industry’s most promising intermediate pathways. We manage upstream starting materials with a scrutiny only a hands-on chemical manufacturer can bring, using analytical controls and in-house QA protocols shaped over decades.
Every specification tells part of the story. Chemists recognize 5-(Bromomethyl)-2-methylpyridine hydrobromide by its CAS number 947614-38-6, or its structure—a methylpyridine ring with a bromomethyl group, captured as a stable hydrobromide salt. It appears as a solid, often white to off-white, crystalline, non-hygroscopic if processed with controlled humidity environments. Many customers highlight its manageable melting point and stable storage profiles in standard lab and warehouse facilities. The shelf stability allows easy planning for scale-up and inventory management, reducing cycle time on time-sensitive projects.
Our pure product consistently exhibits high assay values, routinely exceeding 98%. By investing in in-house purification and drying steps beyond standard practice, we cut down batch-to-batch variability. This saves headaches later when you scale up, because fewer side reactions sneak in. Feedback from research partners confirms low detectable residual halides, reduced organic impurities, and minimal variable coloring—crucial for downstream work where trace contaminants can tip analytical balances or poison catalytic steps.
Model variations in the product almost never stem from marketing aims. Real differences result from process tweaks and analytical learnings—a change in solvent wash here, an adjustment to crystallization temperature there. Customers in medicinal chemistry value these conversations, because each adjustment can mean an extra yield percentage or improvement in downstream reactivity.
Agrochemical and drug discovery routes frequently call for bromo-functionalized building blocks. The bromomethyl moiety transforms the pyridine ring into an easily handled platform for further derivatizations, such as Suzuki, Buchwald, and Grignard reactions. Chemists needing a methyl group para to a reactive bromomethyl site appreciate the core as a launchpad for rings, chains, and more elaborate heterocycles. You see this reflected in published routes toward synthetic intermediates in cancer therapies, herbicides, and insect pheromones.
Our formulation stays manageable even at larger scales. We support kilo-lab deliveries and ton-scale dispatches, with no loss in assay or change in particle profile. This scale-independent reproducibility means project leaders aren’t forced to re-validate upstream chemistry as quantities grow. That kind of stability can only emerge in a manufacturing environment where process chemists, analytical teams, and plant operators communicate daily.
One frequent user, an early-phase API manufacturer, mentioned that substituting our material for an alternative grade reduced their crystallization time by several hours per batch. This sounded small until the cumulative savings allowed them to accelerate a pilot batch schedule and hit aggressive project deadlines. Reverse inquiries from QC teams show that our formaldehyde and THF residues remain low, sidestepping issues seen in other market offerings sourced via indirect supply chains.
Market demand attracts a flood of traders and distributors touting purity on paper, but factory control sets real material apart. We run chemical processing lines, not just packing stations. That means access to the full production record, from bromination temperature logs to crystallization analytics. Taking responsibility for the process from start to finish, we notice small changes—say, a faint sulfurous odor after a filter change, or a slightly altered IR band in late-run fractions. Our teams trace these differences, recover the batch or scrap it if necessary, but never blend away substandard runs to hit shipping targets.
You get what you pay for in this market; a price cut often matches a shortcut. Multiple customers have told us about batches sourced from resellers that left puzzling brown streaks or unexplained TLC spots. Extra cleaning steps, extra time, and sometimes failed synthesis can add weeks—and much more cost—compared with starting from a clean, repeatable product.
Another key difference comes in documentation and support. Because we produce, analyze, package, and distribute this material ourselves, every certificate, method, and batch history matches. Requests for impurity profiles or application advice get concrete answers from our technical support desks, not boilerplate or delayed responses from a middleman who lacks direct plant access. Analytical teams trust our COAs because our technical and regulatory staff talk directly to the production technicians who touch your product, not to a distant third-party rep.
Supply reliability also sets manufacturers apart from the pack. Fluctuations in global demand, customs delays, and shipping disruptions rarely catch us off guard because we own our inputs, from raw-methylpyridine right through to final stages of bromination and salt formation. Vertical integration has meant that even when solvent shortages roiled the market, we kept priority customers supplied—sometimes drawing on day-and-night, in-house material transfers.
We do not just push finished material out the door. Process R&D collaborations lead to deep feedback loops. An agrochemical client several years back ran into ash formation traceable to trace-level iron contamination. Sharing our full process allowed a joint investigation; we overhauled filtration systems, and our improved process is now standard on every production run.
Pharmaceutical synthesis often tests the comfort zones of both R&D and manufacturing. Our highest-demand customers expect more than just compliance—they stake project progress on our analytical reliability. Our analytical methods match up with those in leading journals so QC teams don’t waste time resolving standard and sample differences.
We also watch for use-case shifts—where someone in a material science lab used 5-(Bromomethyl)-2-methylpyridine hydrobromide as a functional monomer starting point for a novel polymer. Scenarios like these lead us to revisit our impurity profiles since end-use sensitivity can change overnight. Application diversity challenges quality in ways that traditional monographs cannot anticipate—only experience fixes these gaps.
No reading of our internal safety logs escapes the lessons of actual hands-on work. Dry, ventilated storage conditions, tight packaging, and routine container inspections result from both regulation and field experience. Failures—clumped material, yellowing, or packaging tears—taught us to adapt both packaging and post-handling recommendations. Most major clients visit us at least once, witness the way we train our workers, and update their own protocols in response. Collaboration like this builds safety habits into every kilo.
Handling guidance passes through technical bulletins, not just safety data sheets. Our teams field questions about blending, weighing, and intermediate transfer—rarely do we hear from customers experiencing losses or process issues because of confusion in our support advice. If a team member can’t answer a tough question, it goes to a chemical engineer or process chemist who’s seen failed transfer in real time, not just in a classroom.
We see long-term customers returning for material, not just documents. Some switched to us after a key competitive trial or to replace material that failed under scale-up. We earned this retention by simply listening to their problems—obscure batch inconsistencies, unforeseen reactivity, or analytical mismatches. While the industry moves fast, the push for higher purities, better logistics, and technical transparency remains constant.
Several years back, one client struggling with regulatory registration submitted our impurity reports with local filings and secured a regional approval based purely on the clarity and depth of our documentation. That success built a foundation for collaboration on more advanced intermediates, and set a model for expectation management with new prospects.
The development journey for each batch never finishes with the paperwork. Each plant audit, analyst inquiry, and rejected batch adds to a cycle of steady improvement. Our pride as a manufacturer lies not in the commodity—but in the way real-world chemistry, daily decision making, and specialist skills translate into a more predictable research and production environment for partners who depend on our 5-(Bromomethyl)-2-methylpyridine hydrobromide.
Scaling bromomethyl intermediates brings process safety, waste management, and regulatory precision to the fore. By investing in automated monitoring, batch traceability, and waste-minimization systems, we have not only hit local compliance marks, but also earned trust with leading pharmaceutical and agricultural firms. Every region has local regulations, but our documentation covers needs for most jurisdictions, smoothing customs and registration work.
Supply chain strain casts long shadows on specialty chemicals. Disruption—be it raw material price shocks or logistics delays—can kick off an uncomfortable scramble. Because we retain critical inventory in-house and build redundancy into supplier relationships, backorders and process idling never stretch into months. We step in to hold supply commitments even when the market at large contracts; our contract flexibility and ability to produce under both GMP-analog and technical-grade systems give customers the choices they need to keep projects moving.
Environmental expectations continue to rise. We design waste capture, solvent recovery, and emission monitoring into our daily operations, often aiming for parameters tighter than mandated. Not just for compliance, but to protect both the workforce and surrounding community. These habits have let us expand capacity and experiment with greener production tweaks without causing headaches for customers downstream.
We recruit plant chemists, operators, engineers, and QA professionals who care about what gets shipped. Low staff turnover keeps know-how and company memory on the floor. Plant technicians often recommend and implement tweaks directly—a closed vapor trap here, a rebalanced drying cycle there. Vigilance like this only develops among teams committed to improvement, not through outside consultants or offsite management alone.
Customer-led feedback shapes our scale-planning. If a route adjustment in a customer plant reveals a new application or raises an issue, we loop this back into R&D. Recent advances in continuous-flow bromination, inspired by client demand, allowed us to cut waste and process time without compromising product characteristics. Our learning grows from what the market actually needs, not just what laboratory models predict.
Year after year, firms return to 5-(Bromomethyl)-2-methylpyridine hydrobromide for projects demanding more than commodity chemicals. They want support, consistent quality, and answers from people living the details of everyday manufacturing. From initial inquiry to post-delivery feedback, our entire operation revolves around practical chemistry, data transparency, and ongoing improvement.
In a world crowded with intermediaries, we remain committed to remaining direct, responsible, and open about how our products perform in practice. Our reputation stands on more than just today’s batch—it grows as every partner sees time saved, output improved, or risk averted by quality chemical manufacturing. That defines real value, built not by paperwork, but by daily teamwork and direct experience with 5-(Bromomethyl)-2-methylpyridine hydrobromide.
