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HS Code |
550169 |
| Product Name | Pyridine, 3-(bromomethyl)-, hydrobromide |
| Cas Number | 33034-55-6 |
| Molecular Formula | C6H7Br2N |
| Molecular Weight | 272.94 g/mol |
| Appearance | white to off-white crystalline powder |
| Melting Point | 173-176°C |
| Solubility In Water | soluble |
| Storage Conditions | store at 2-8°C |
| Synonyms | 3-(Bromomethyl)pyridine hydrobromide |
| Purity | ≥98% |
| Hazard Class | Irritant |
| Smiles | C1=CC(=CN=C1)CBr.Br |
As an accredited Pyridine, 3-(bromomethyl)-, hydrobromide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of Pyridine, 3-(bromomethyl)-, hydrobromide is supplied in a sealed amber glass bottle with a tamper-evident cap. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): Packed in 25kg fiber drums, 8MT per 20′ FCL. Drums securely palletized to ensure safe transport and handling. |
| Shipping | **Shipping Description for Pyridine, 3-(bromomethyl)-, hydrobromide:** Ships in tightly sealed, chemically compatible containers, protected from light and moisture. Package with appropriate chemical hazard labeling according to regulatory standards. Provides cushioning and secondary containment to prevent leaks or spills during transit. Handle as hazardous material—proper documentation, suitable temperature control, and compliance with applicable shipping regulations required. |
| Storage | **Pyridine, 3-(bromomethyl)-, hydrobromide** should be stored in a tightly closed container, in a cool, dry, and well-ventilated area, away from sources of ignition and incompatible substances such as strong oxidizers. Protect it from moisture and light. Ensure all storage containers are properly labeled, and access is restricted to trained personnel wearing appropriate protective equipment. |
| Shelf Life | **Pyridine, 3-(bromomethyl)-, hydrobromide** should be stored tightly sealed, protected from light and moisture; shelf life is typically 2–3 years. |
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Purity 98%: Pyridine, 3-(bromomethyl)-, hydrobromide with purity 98% is used in pharmaceutical intermediate synthesis, where it ensures high reaction selectivity and yield. Melting Point 177°C: Pyridine, 3-(bromomethyl)-, hydrobromide with melting point 177°C is used in solid-phase organic synthesis, where it provides thermal stability during high-temperature processes. Molecular Weight 252.95 g/mol: Pyridine, 3-(bromomethyl)-, hydrobromide with molecular weight 252.95 g/mol is used in heterocyclic compound preparation, where it enables precise stoichiometric calculations for reproducible results. Moisture Content <0.5%: Pyridine, 3-(bromomethyl)-, hydrobromide with moisture content less than 0.5% is used in nucleophilic substitution reactions, where it minimizes side reactions and byproduct formation. Stability Temperature up to 100°C: Pyridine, 3-(bromomethyl)-, hydrobromide with stability temperature up to 100°C is used in intermediate storage applications, where it maintains chemical integrity during handling and storage. Particle Size 50–100 µm: Pyridine, 3-(bromomethyl)-, hydrobromide with particle size 50–100 µm is used in catalyst preparation, where it facilitates uniform dispersion and reactivity. Chromatographic Purity 99%: Pyridine, 3-(bromomethyl)-, hydrobromide with chromatographic purity 99% is used in analytical reference standards, where it guarantees accurate quantification in quality control applications. Solubility in Water 10 g/L: Pyridine, 3-(bromomethyl)-, hydrobromide with solubility in water up to 10 g/L is used in aqueous phase synthesis, where it promotes rapid and complete dissolution of reactants. |
Competitive Pyridine, 3-(bromomethyl)-, hydrobromide prices that fit your budget—flexible terms and customized quotes for every order.
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Every day in the factory, our focus falls sharply on quality chemicals that drive advanced research and industrial solutions. Pyridine, 3-(bromomethyl)-, hydrobromide—often referred to as 3-bromomethylpyridine hydrobromide in the lab—proves itself time and again as a reliable building block for more complex molecules. The science doesn't begin in the warehouse or end at the lab bench. For years, our technicians have followed strict process controls, drawing from decades of practical knowledge and attention to safety, purity, and yield. We don’t just ship this molecule; we know it from the inside-out, batch-after-batch.
There is no substitute for direct hands-on production when it comes to understanding how subtle process adjustments can change the purity and performance of Pyridine, 3-(bromomethyl)-, hydrobromide. In practice, operators tasked with overseeing each synthesis draw upon rigorous training. The hydrobromide salt offers unique handling and storage advantages over its free base or alternative pyridine derivatives. It resists air and moisture uptake, helps calibrate dosing in fine chemical transformations, and mitigates concerns about volatility that are common in pyridine-based intermediates.
Whereas some might see just another pyridine derivative, on our production scale, differences stand out. Synthesis doesn’t rely on a single-use recipe. Instead, we pay attention to feedstock sourcing, reactor design, temperature control, and workup conditions. The hydrobromide form delivers a consistent crystalline material, usually off-white, with solubility that matches its reputation for versatility in polar solvents. Each lot comes with documentation because internal controls drive trust—not assumptions.
Lots of chemicals in a catalogue look similar on paper, but real-world application work reveals distinctions. In pharmaceuticals, agrochemicals, and specialty synthesis, 3-(bromomethyl)pyridine hydrobromide allows targeted alkylation on aromatic and heteroaromatic rings. The hydrobromide counterion reduces the basicity of the pyridine ring, which becomes crucial in reactions that need to avoid free-base reactivity or where product isolation from organic solvents is simplified by the salt.
The process teams in our facility recognize how final users count on uniform melting point, clear NMR signals, and minimal byproducts. At scale, troubleshooting an unexpected impurity or moisture sensitivity isn't abstract—it’s a concrete headache best avoided altogether. That’s why process refinement focuses on eliminating batch-to-batch variation and improving final handling. Chemical operators use analytical data, not guesses, to keep our specifications on-target.
In academic group meetings and production process reviews alike, 3-(bromomethyl)pyridine hydrobromide takes the spotlight as a versatile intermediate for synthesis. Researchers in medicinal chemistry require robust, scalable routes to pyridine-containing scaffolds. This compound steps into halide-alkylation, N-alkylation, and substitution reactions where precision matters. During scale-up of pilot batches for pharmaceutical candidates, our customers notice how easily our material integrates into multi-step syntheses without need for additional purification.
From a manufacturing perspective, cost efficiency does not come from cutting corners—it relies on reducing rework, optimizing yield, and ensuring all documentation satisfies regulatory review. Every drum that rolls out of the dock carries a record of operator initials, reactor logs, and in-house QC checks. In custom contract projects where timelines are tight, nothing counts as much as a well-characterized intermediate that performs as promised.
Long before an order goes out, our chemical engineers design, review, and tweak procedures by drawing on prior runs of Pyridine, 3-(bromomethyl)-, hydrobromide. Our batches don’t leave the line until every checkpoint from raw materials to finished product clears. The hydrobromide salt form wins points in production due to its lower volatility compared to the free base. Experienced warehouse staff appreciate that this reduces inhalation concern and simplifies packaging requirements for both short-and long-term storage.
More than once, a project’s success has hinged on having a material arrive in ready-to-use condition without surprises. Stability over time and through shipping can’t be overlooked. Our practices emphasize tight temperature controls, moisture barriers, and sealed packaging because even small changes in lot integrity create headaches in the downstream process. Service calls, replacement orders, and re-assays cost time, energy, and customer trust—commitment to the process up front saves more than just money.
Supplying Pyridine, 3-(bromomethyl)-, hydrobromide across competitive, deadline-driven sectors has taught our teams that details in every step matter. Third-party traders rarely face the same level of responsibility as we do with our direct manufacturing chain. Adjusting for seasonal humidity, managing variations in imported bromine, monitoring reactor scale-up—these challenges demand quick action grounded in chemical experience, not theory.
Lab reports only tell one side of the story. From the moment raw pyridine enters the plant, we track physical properties, check for color consistency, and review residue on ignition. Routinely, operators double-check bromomethylation conversions and monitor for over-alkylation using in-house reference spectra. Technical staff mark each drum based on batch-specific yields and clarity of crystallization. Customers needing large-volume shipments count on us to match prior material, so no two containers drift apart in quality or appearance. It’s not something a desk-bound administrator can deliver—factory hands and experienced chemists make it happen.
Working at the source uncovers the true challenges behind complex syntheses. Our team chooses hydrobromide salt for its practicality in storage and transport. Researchers and plant chemists avoid unnecessary delays when using our material, since each batch undergoes filtration, drying under controlled humidity, and full spectral confirmation before shipment.
Not every supplier acknowledges the role of trace impurities, but our in-process analytics regularly pick up byproducts or colored contaminants long before QC analysis. Below 0.5% impurity levels don’t happen by accident. These are the results of lab know-how on the factory floor—hands that learn from feedback, not just from a textbook or online reference. We know how a hot summer day or an unexpected power fluctuation could affect crystallization, and we build margin into our protocols to respond to these routine events. Our years of handling both small research prep and multi-metric tonnage orders keep us nimble to customer feedback and regulatory shifts.
Pyridine, 3-(bromomethyl)-, hydrobromide distinguishes itself through its chemical reactivity, handling ease, and physical stability. Unlike the free base or chloride/iodide analogs, the hydrobromide variant offers improved shelf life under ambient conditions and a balance of reactive bromide for substitution steps. Solubility profiles enable its use in water-miscible media, and the salt form cuts down on vapor losses and operator exposure risks.
Our experience with similar alkyl halides shows that some will hydrolyze, discolor, or form persistent oils—hazards that increase cost and complexity during production. Pyridine, 3-(bromomethyl)-, hydrobromide forms a manageable solid with a clear melting point and minimal odor, greatly decreasing spill and exposure incidents on the shop floor. Process engineers appreciate the predictable stoichiometry, while development chemists can rely on batch-to-batch uniformity for reaction scale-up. Our products spend real time on the benchtop being tested by our own specialists, not just passing through a broker's hands.
Any long-haul manufacturer knows that successful chemistry is not just a recipe, but a combination of raw instinct, institutional memory, and timely data. False economy creeps into procurement decisions that chase the cheapest supplier, especially when overlooked details lead to higher scrap rates, off-spec batches, or project delays. Our plant teams have seen imported chemicals turn to mush in transit or arrive with residual solvents damaging to sensitive processes. Each report of a failed reaction or slow filtration due to unrecognized contaminants leads to internal review, changes at the process step, and direct communication with end users about updated protocols.
Our raw material experts talk directly to bromine and pyridine producers abroad, verifying every shipment for RCI (residual color index) and HPLC profile. Sometimes a raw material fails to meet target grades; we adjust and record the event, keeping the learning in-house. Managers emphasize hands-on, continuous training so that new operators know what to look for by sight, smell, and touch—skills a shipping manifest can't communicate.
Researchers stand at the cutting edge of drug discovery, new agrochemicals, specialty polymers. Pyridine, 3-(bromomethyl)-, hydrobromide acts as the launchpad for heterocycle modifications, library syntheses, and chiral catalyst development. Each field values predictability, availability, and quality above theoretical maximum yields. On emerging projects, the compound gets selected for use in peptide conjugation, fluorescent probe assembly, and catalyst ligation. The hydrobromide form ensures no time lost to drying, no call-backs regarding free base odor, and consistent lot verification.
For those pushing into new areas, regulatory compliance demands that every source of raw material be auditable, controlled, and documented. As both producer of record and technical support partner, we know our name and our batch number remain on record for years after a project completes. That’s accountability at a level brokers and middlemen cannot match. Documentation means traceability, not marketing puffery, and means every specification has a story behind its selection.
The discovery or scale-up chemist wants a pyridine derivative that does not add to the list of problems to solve. Basket-based specification—and demand from users for tighter impurity profiles, longer shelf-lives, or water-washable residues—drive ongoing research and development at our facility. Over the years, input from process scale-up failures and successes has led to refined filtration regimens, new crystallization solvents, and unique drying protocols. Our hands-on process development translates to reduced costs and stronger client relationships. No chemical is just “off the shelf” for us; every product benefits from previous generations’ lessons, helping avoid pitfalls common in commodity-grade intermediates.
Over the years, we’ve learned how even minor upstream changes—supplier switch, drum lining alteration, temperature-control drift—alter outcomes downstream in ways few ever see coming. Regulatory updates force us to pre-screen for newly listed impurities and keep updated records on every process change. Fluctuations in demand from pharmaceutical launches or crop chemical expiration dates require agile capacity planning. The technical and market challenges of producing Pyridine, 3-(bromomethyl)-, hydrobromide never quite repeat, but skill and experience stay relevant.
Solving recurring problems like clumping during humid seasons, batch color changes after inbound storms, or contamination due to accidental cross-exposure in shared reactors demands pre-emptive action. These solutions require investment—dedicated storage silos, real-time monitoring, and active communication between plant, warehouse, sales, and end-user. Staff pride comes from seeing a client’s trial succeed without any supplier drama. This ground-level experience never appears on a glossy sell sheet, but lasting relationships form when users see how solid performance at the loading dock translates to reliable outcomes in their process or product.
Out in the industry, the rules shift year to year, but commitment to getting every batch right never changes. Pyridine, 3-(bromomethyl)-, hydrobromide sits at the intersection of reliable process chemistry and demanding application work. Practical knowledge gained in the plant gives more than numbers on a certificate; it builds confidence with every kilogram shipped. The design team constantly reviews repeat client feedback—requests for faster lead times, better packaging, or different lot sizes—to keep production aligned with industry needs.
In the end, this hands-on approach drives innovation. Every new use case feeds knowledge back into the plant team’s toolkit. From university researchers synthesizing new molecules to chemical producers optimizing old routes, our Pyridine, 3-(bromomethyl)-, hydrobromide stands ready—and so does the experience to support it, batch after batch, year after year.
