|
HS Code |
243881 |
| Product Name | 2-(bromomethyl)pyridine hydrobromide |
| Synonyms | Pyridine, 2-(bromomethyl)-, hydrobromide |
| Cas Number | 2591-67-9 |
| Molecular Formula | C6H7Br2N |
| Molecular Weight | 268.94 g/mol |
| Appearance | White to off-white crystalline powder |
| Melting Point | 161-165°C |
| Solubility | Soluble in water, ethanol, and methanol |
| Purity | Typically ≥98% |
| Storage Conditions | Store at 2-8°C, tightly closed |
| Density | 1.90 g/cm³ |
| Smiles | C1=CC=NC(=C1)CBr.Br |
| Inchi | InChI=1S/C6H6BrN.BrH/c7-5-6-3-1-2-4-8-6;/h1-4H,5H2;1H |
As an accredited 2-(bromomethyl)pyridine hydrobromide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The 25g quantity of 2-(bromomethyl)pyridine hydrobromide is supplied in a sealed amber glass bottle with a secure screw cap. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for 2-(bromomethyl)pyridine hydrobromide: Securely packed in drums or bags, maximizing container capacity, ensuring safe, compliant export. |
| Shipping | 2-(Bromomethyl)pyridine hydrobromide should be shipped in tightly sealed containers, protected from moisture and light. It is classified as a hazardous chemical and must be transported according to relevant regulations, with appropriate hazard labeling and documentation. Ship at ambient temperature unless otherwise specified, ensuring compliance with local, national, and international shipping guidelines. |
| Storage | **2-(Bromomethyl)pyridine hydrobromide** should be stored in a tightly sealed container, in a cool, dry, and well-ventilated area, away from moisture, heat, and direct sunlight. It should be kept away from incompatible substances such as strong bases and oxidizing agents. Proper labeling and secondary containment are recommended to prevent accidental spills or exposure. Store according to local regulations. |
| Shelf Life | **Shelf Life:** 2-(Bromomethyl)pyridine hydrobromide is typically stable for at least 2 years when stored in a cool, dry place. |
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Purity 98%: 2-(bromomethyl)pyridine hydrobromide with purity 98% is used in pharmaceutical intermediate synthesis, where it ensures high yield and product consistency. Molecular weight 236.95 g/mol: 2-(bromomethyl)pyridine hydrobromide with molecular weight 236.95 g/mol is used in fine chemical production, where precise stoichiometric calculations enhance process accuracy. Melting point 138-142°C: 2-(bromomethyl)pyridine hydrobromide with melting point 138-142°C is used in medicinal chemistry research, where controlled solid-state handling supports reproducible reactions. Stability temperature up to 60°C: 2-(bromomethyl)pyridine hydrobromide with stability temperature up to 60°C is used in storage and transportation, where thermal stability prevents decomposition and maintains reagent integrity. Particle size ≤ 100 µm: 2-(bromomethyl)pyridine hydrobromide with particle size ≤ 100 µm is used in solid-phase synthesis, where fine granularity improves solubility and reaction kinetics. Water content ≤ 0.5%: 2-(bromomethyl)pyridine hydrobromide with water content ≤ 0.5% is used in moisture-sensitive reactions, where reduced hydrolysis risk increases synthetic efficiency. Assay (HPLC) ≥ 98%: 2-(bromomethyl)pyridine hydrobromide with assay (HPLC) ≥ 98% is used in analytical chemistry, where high purity allows for accurate quantitative analysis. Color white to off-white: 2-(bromomethyl)pyridine hydrobromide with color white to off-white is used in quality control protocols, where product appearance aids in rapid visual identification. |
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In our production halls, where process control starts with the very first delivery of raw starting materials, 2-(bromomethyl)pyridine hydrobromide has become a familiar sight. Every step, from the initial selection of reagents to the final packaging in moisture-resistant containers, reflects hands-on experience and respect for the compound’s chemical properties. Our team often discusses the unique challenges these pyridyl halides create—not just in equipment selection, but in upholding purity and reproducibility that our customers rely on for explorations across chemical synthesis and pharmaceutical research.
Quality with this product isn’t just an end-goal; it’s embedded in our routine. The model of 2-(bromomethyl)pyridine hydrobromide we produce typically aligns with established CAS entries and reference specifications, but as manufacturers, our focus sharpens on particle size control, crystalline uniformity, and purity benchmarks. Direct batch records reflect typical assay levels exceeding 98%. Moisture content and melting point ranges stay under tight internal limits, not out of habit, but because downstream reactions falter otherwise. We manage sensitivity to humidity and light from start to finish, employing controlled environments where each drum is filled and sealed.
Over years of experience handling this compound, strict segregation from incompatible reagents—especially strong bases and nucleophiles—is non-negotiable. Upkeep of workspaces and line clearance before and after packaging runs proves more than just good practice; it’s essential for avoiding contamination that even seasoned chemists sometimes overlook with reactive halides.
2-(Bromomethyl)pyridine hydrobromide sees heavy use as an intermediate for fine chemicals, crop protection projects, and medicinal chemistry. It’s valued for its electrophilicity and selective reactivity at the methyl bromide position. Our clients often seek this compound to prepare Pyridine-based building blocks—sometimes leading to clinical candidates and sometimes to industrial catalysts. The compound’s bromomethyl handle opens paths for alkylation that the parent pyridine or even pyridine N-oxide cannot provide.
In process development meetings, we’ve encountered countless case studies: researchers prefer hydrobromide salts for their predictable release of the active bromo species during alkylation, versus free bases or chloromethyl analogs, which can be less stable or harder to manipulate. The hydrobromide form dissolves well in polar solvents commonly used in pharmaceutical and agrochemical labs, like DMF and DMSO, allowing low-temperature control over reaction rates and limited byproduct formation.
Direct conversations with formulation teams indicate that this product’s crystalline characteristics lead to more reproducible reaction outcomes in scale-ups compared to more hygroscopic pyridine derivatives. Maintaining sharp particle size distributions has helped several partners eliminate off-flavor impurities when scaling from grams to kilograms. Feedback like this carries weight; we incorporate it into every subsequent lot.
Often, our chemists get asked what separates 2-(bromomethyl)pyridine hydrobromide from similar intermediates. Its direct bromomethyl group stands apart for its reactivity profile—allowing cleaner, more selective alkylation of nucleophilic partners than the typical 2-(chloromethyl)pyridine, which suffers from lower rates and more byproducts. The presence of hydrobromide as a counterion brings stability under ambient conditions, compared to the free base or the hydrochloride salt, which customers have found less straightforward to store and handle in bulk. This translates to improved shelf life and reduced batch-to-batch variability once the compound leaves our plant.
Not all pyridyl halides behave the same in coupling reactions. For Suzuki and Buchwald–Hartwig style transformations, the bromomethyl function transmits reactivity reliably to aryl or alkyl palladium-catalyzed additions. Chlorinated analogues seldom provide the same yields. In classic SN2 substitution, where the nucleophile attacks at the methyl, the bromide’s leaving group efficiency comes through—something we’ve confirmed in trial set-ups and through customer feedback in pilot studies.
Manufacturing organobromine intermediates like this one doesn’t allow room for shortcuts. By using closed reaction systems and rigorous atmospheric controls, we limit side-product formation and secondary halogenation that can complicate downstream use. Technicians work with a live understanding of how trace moisture impacts yield, and routine Karl Fischer titrations back up what their eyes and noses tell them about batch dryness.
From our vantage point, particle morphology matters. Overly fine powders risk dust generation and uneven dissolution; too coarse, and reaction charge-outs become unreliable, especially in automated dispensing systems. Our method balances granule hardness with free-flowing consistency, meant to reduce compaction during transport and simplify handling at the bench.
Because we produce our own input pyridine, we control trace impurity levels before bromination ever begins. This vertical approach cuts down on unknown contaminants, which can trip up synthesis later, especially in multistep routes. Our technical team always stands ready to investigate odd chromatograms or unexplained colorations, often collaborating with partner labs to hunt down likely culprits from both ends.
The role our product plays in R&D pipelines becomes clear in daily technical queries arriving from researchers and process engineers. In discussions about new synthetic routes or process improvements, 2-(bromomethyl)pyridine hydrobromide often becomes the electrophile of choice for assembling active pharmaceutical or crop protection ingredients with tailored properties. Its utility hinges on predictable, controlled release of bromomethyl groups under mild conditions—particularly valued by pharmaceutical companies scaling reactions from bench-top to plant scale. This is not a laboratory curiosity but a workhorse intermediate whose reliability has been proven over years, batch after batch.
We’ve seen requests for custom particle size reductions, especially among customers developing automated filling or continuous reaction systems. Our facility adapts to fine-tuning sieve parameters, ensuring consistency from pilot to full production. Such requests often arise as a result of bottlenecks in scale-up or formulation, sometimes flagged only after several kilograms have been trialed. Here, our in-house adaptability—borne from manufacturing every lot ourselves—lets us respond more quickly than any trading intermediary.
This same flexibility plays out in customized packaging solutions designed to limit exposure during high-throughput syntheses. We’ve learned that air-sensitive payloads benefit from nitrogen-packed drum liners and distinct labeling that signals downstream partners about the compound’s sensitivity. Practical experience has shown that such small adjustments prevent losses and disposal headaches, especially when handling large volumes.
Manufacturing 2-(bromomethyl)pyridine hydrobromide ourselves gives us authority over every parameter, something that distributors or resellers rarely offer. We test each batch for trace metals, halogenated byproducts, and loss on drying, drawing on an archive of historical trends specific to every reactor in our plant. End-users benefit from this transparency, particularly those in regulated industries who cannot tolerate surprises or gaps in documentation.
Our experienced team, from operations managers to analytical chemists, weighs in on every deviation and customer complaint. Each member’s direct involvement matters: we don’t treat feedback like data points in a spreadsheet, but as challenges to solve with hands-on adjustments. We welcome site audits and routinely share full traceability from input raw materials to final containers.
In contrast, sourcing from traders or brokers introduces uncertainty. Origin of starting materials, handling chain, and true storage conditions often become murky. Pharmaceutically focused customers, in particular, grow frustrated trying to trace a compound’s real pedigree back to its source. With our product, customers get full visibility plus the option to tailor packing, particle size, or even specification limits—without waiting weeks for an overseas intermediary to coordinate a new batch from a contract manufacturer.
We recognize the demands of regulated environments; GMP-minded practices guide the way we keep records, qualify equipment, and verify cleaning protocols. This mindset makes our 2-(bromomethyl)pyridine hydrobromide a dependable choice for those needing audit trails and batch records that stand up to regulatory scrutiny. Our documentation includes full chromatograms, titration data, and manufacturing logs for each batch leaving our facility, reviewed by experienced analysts who understand what regulators look for.
Years of feedback tell us that traceability matters as much as technical quality. Clients in pharmaceuticals, agrochemicals, and specialty materials research often base whole process validations on the reliability of our intermediate. When specifications shift for new projects, we adjust documentation and testing scope—not from a distance, but with lab and production staff communicating every detail.
Our collective experience working with halogenated pyridine derivatives stretches back across decades and shapes the way we engineer processes for safety. The inherent reactivity of the bromomethyl group in 2-(bromomethyl)pyridine hydrobromide demands careful control over quenching, disposal, and worker training. We employ redundant containment controls and conduct frequent drills to reinforce spill management protocols. Simple lessons, such as segregating incompatible wastes and maintaining slightly acidic pH during clean-down, have prevented near-misses more than once.
We educate our own team and downstream partners in the real risks. Training emphasizes both acute hazards from exposure and chronic effects from improper storage. This isn’t just theoretical—near-misses from poorly vented transfer points led us to revamp our plant ventilation strategy years ago, long before regulations demanded such upgrades. Continuous improvement on the shop floor has translated to safer batches leaving our gates and fewer returns due to spoilage or container failures.
Operating as a direct manufacturer means taking environmental impacts seriously at each stage. We invest in solvent recycling, rigorous flare gas monitoring, and controlled incineration of waste streams, especially those containing organobromine byproducts. Minimizing uncontrolled emissions has lowered not just compliance risks but improved community trust.
We’ve worked on new approaches to limiting reaction yields of dibrominated side-products, collecting feedback from both downstream labs and our quality groups to optimize the proportion of feed bromine utilized. This closes material loops and cuts down on off-spec byproduct needing disposal. Laboratory initiatives to trial alternative, greener solvents in process development are ongoing, and our goal is to pare back on resource consumption with every campaign.
Every intermediate presents challenges; 2-(bromomethyl)pyridine hydrobromide is no exception. Regulatory scrutiny increases year on year for brominated aromatic intermediates, so we maintain open lines with environmental and safety authorities. New restrictions on transport and storage trigger process reviews and, at times, major capital improvements—negotiations we tackle directly, never leaving responsibility to distant contractors.
Managing product consistency at increasing production scales takes persistence. We’ve invested in automated reaction monitoring, in-line PAT testing, and new crystallization technology to catch process drifts before they affect the finished batch. Deviations inform updated procedures; experience with this particular molecule shapes every change.
Customer needs continue to evolve: smaller particle sizes, faster dissolution, tighter impurity thresholds. Keeping pace relies on tight feedback loops and the willingness to retrofit and refine equipment without hesitation. By owning each phase of production, we remain responsive—whether the challenge comes from a regulatory letter or a late-night phone call from a process chemist troubleshooting scale-up.
At our core, we are hands-on chemists and operators who have spent careers refining the details: the way a drum lid fits, the feel of a properly dried powder, the color of a freshly crystallized lot. Nothing about 2-(bromomethyl)pyridine hydrobromide’s manufacture gets left to chance or speculative sourcing. We see the real needs of research and production teams, because we’ve stood on those same lines and faced those same deadlines.
This commitment permeates each kilogram we supply to the scientific and industrial community. Our knowledge of the product grows every year—not from catalog copy, but from the very tangible realities of chemistry, equipment, and the feedback our collaborators share. In a crowded market, our dedication makes the difference that chemists and engineers value, project after project.
