|
HS Code |
271505 |
| Chemical Name | 5-Bromo-2-methoxypyridine |
| Cas Number | 124711-45-9 |
| Molecular Formula | C6H6BrNO |
| Molecular Weight | 188.02 g/mol |
| Appearance | White to off-white crystalline solid |
| Melting Point | 37-41 °C |
| Boiling Point | 228-229 °C at 760 mmHg |
| Density | 1.599 g/cm3 |
| Purity | Typically ≥98% |
| Solubility | Soluble in organic solvents (e.g. DMSO, ethanol) |
| Smiles | COC1=NC=CC(Br)=C1 |
| Inchi | InChI=1S/C6H6BrNO/c1-9-6-4-5(7)2-3-8-6/h2-4H,1H3 |
As an accredited 5-Bromo-2-methoxypyridine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging is an amber glass bottle containing 25 grams of 5-Bromo-2-methoxypyridine, labeled with hazard and identification information. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for 5-Bromo-2-methoxypyridine: typically loaded in sealed drums or bags, net weight around 10–14 tons. |
| Shipping | **Shipping for 5-Bromo-2-methoxypyridine:** 5-Bromo-2-methoxypyridine is shipped in secure, sealed containers, clearly labeled according to regulatory requirements. It is transported as a chemical reagent, usually under ambient conditions, ensuring protection from moisture and physical damage. All shipping complies with relevant safety guidelines and international transport regulations for hazardous chemicals. |
| Storage | 5-Bromo-2-methoxypyridine should be stored in a tightly closed container, in a cool, dry, and well-ventilated area, away from incompatible substances such as strong oxidizing agents. Protect it from light and moisture. Ensure proper labeling and keep it in a designated chemical storage cabinet, preferably for flammable or hazardous chemicals, following standard laboratory safety procedures. |
| Shelf Life | The shelf life of 5-Bromo-2-methoxypyridine is typically 2–3 years when stored in a cool, dry, tightly sealed container. |
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Purity 98%: 5-Bromo-2-methoxypyridine with purity 98% is used in pharmaceutical intermediate synthesis, where it ensures high yield and reproducibility of active molecules. Molecular Weight 188.01 g/mol: 5-Bromo-2-methoxypyridine of molecular weight 188.01 g/mol is used in agrochemical development, where it enables precise stoichiometric calculations for formulation design. Melting Point 38-41°C: 5-Bromo-2-methoxypyridine with a melting point of 38-41°C is used in fine chemical processes, where it allows efficient solid handling and minimized thermal degradation. Stability Temperature up to 110°C: 5-Bromo-2-methoxypyridine stable up to 110°C is used in high-temperature coupling reactions, where it prevents decomposition and maintains product integrity. Particle Size <50 µm: 5-Bromo-2-methoxypyridine with particle size less than 50 µm is used in catalysis research, where it promotes uniform dispersion and enhanced reaction rates. Moisture Content <0.2%: 5-Bromo-2-methoxypyridine with moisture content under 0.2% is used in peptide synthesis, where it minimizes side reactions and increases purity of final products. |
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A strong foundation matters in chemistry just as it does in any craft. The small molecules that chemists handle every day carry more weight than their size might suggest. 5-Bromo-2-methoxypyridine serves as one of those key components that both research scientists and industrial staff reach for to keep their projects running smoothly. Its unique structure, balancing a bromine atom on a pyridine ring with a methoxy group, provides predictable reactivity in the lab without surprise side reactions that can slow work down.
Many of us working in chemical synthesis learn quickly which reagents save time and trouble. A compound like 5-Bromo-2-methoxypyridine fits this need because it consistently performs in cross-coupling reactions and other aromatic substitutions. Chemists rely on its ability to deliver results across a range of projects, whether preparing pharmaceutical intermediates, fine chemicals, or agrochemical building blocks.
5-Bromo-2-methoxypyridine stands out because it combines the benefits of the pyridine ring, a staple in medicinal chemistry, with handleability that doesn’t complicate logistics. Its melting point and solubility can streamline purification, keeping the working day focused on discovery instead of troubleshooting stubborn byproducts or recovery headaches. In Suzuki and Buchwald-Hartwig couplings, the bromine position allows reliable introduction of substituents while the methoxy group tunes electronic properties, often giving better yields with fewer side reactions.
Anyone aiming to build more advanced chemical libraries sees added value here. Unlike less selective halopyridines, this compound provides a predictable anchor for synthesis, which improves downstream flexibility. In a practical sense, this means less rerunning of failed couplings or retesting unexpected products, making scheduling and budgeting more manageable.
People sometimes ask what separates 5-Bromo-2-methoxypyridine from similar compounds like 2-bromopyridine or methylated analogs that lack a bromine atom. Small tweaks in structure translate to large changes in reactivity. The bromine at the five position opens doors to more cross-coupling opportunities, giving a synthetic chemist direct access to previously hard-to-reach substitution patterns. The methoxy group doesn’t just decorate the ring—it changes the electronic landscape, which can be the edge needed for a difficult transformation.
Cheaper alternatives or less substituted pyridines, while appealing at first glance, tend to create issues with selectivity or limit further diversification. Many years using different halopyridines for scale-up have shown that the right functional group at the right position means smoother production lines and fewer headaches for staff down the chain, from analytical chemistry to plant operations. In this sense, cutting corners on starting materials rarely pays off in the long run.
Consistency is the backbone of any manufacturing process. Those of us charged with purchasing or laboratory support pay close attention to how suppliers manage batch-to-batch variation. The chemical industry lives on tight margins, and unpredictable supplies translate directly into lost time and cost overruns. Sourcing high-purity 5-Bromo-2-methoxypyridine with clear, traceable documentation makes the difference between a smooth-running project and one plagued by unexpected sample failures.
Reliable suppliers often participate in third-party audits, maintain strong relationships with upstream producers, and invest in quality-driven warehousing. This infrastructure supports the confidence testers and researchers feel when reaching for a fresh bottle of this material. In my work, seeing a stable certificate of analysis and reproducible chromatography data gives me peace of mind before I start the next stage of synthesis.
Safety is part of every discussion around chemical procurement. High-quality 5-Bromo-2-methoxypyridine comes with comprehensive documentation and transparent sourcing so that every user can handle it with confidence. Consistent melting points, spectral data, and impurity profiles backed by robust quality systems support smooth regulatory approvals and easier internal compliance.
Having worked on both the R&D and compliance sides, I have seen projects stall when basic transparency breaks down. Teams that keep accurate inventory and document lot numbers avoid costly recalls and confusion during audits. The best chemical partners back up every shipment with direct, accessible support and detailed batch histories. These efforts do more than protect reputations—they protect health, safety, and the bottom line.
Modern research depends on quickly transforming new ideas into proof-of-concept molecules. The time required to order, receive, and test a batch of chemical intermediates sets the pace for innovation. By investing in robust logistics networks and clear customer communication, good suppliers ensure 5-Bromo-2-methoxypyridine arrives on time with no guesswork about handling or storage. I remember project timelines that hinged on a single reliable delivery. No one wants to explain to management that a promising project failed for want of a single reagent.
Some users focus on process development, others on discovery chemistry. Both groups benefit from accessible technical guidance—the kind that often comes from years of shared experience between technical support and the end user. Questions about scale-up or optimal reaction conditions get better answers when suppliers treat their product as more than a SKU on a spreadsheet.
Direct experience has shown me how much environmental stewardship now shapes chemical purchasing decisions. Reducing waste matters, and so does minimizing the environmental impact of both upstream and downstream processes. Suppliers who recognize these priorities embed them into their operations, from cleaner production to less wasteful packaging. Talking to colleagues, I hear more teams asking for documentation not just on quality, but also on environmental footprint.
Compared to some legacy intermediates with higher toxicity or disposal burdens, 5-Bromo-2-methoxypyridine can play a part in safer, more sustainable operations. Its stability and reactivity profile let chemists use milder conditions, which reduces risk and lowers the cost of protection equipment and environmental controls. In my previous roles, switching to more predictable intermediates like this one meant less worry about hazardous byproducts, smoother transport approvals, and fewer delays caused by regulatory changes.
The chemistry behind 5-Bromo-2-methoxypyridine is not new, but its applications keep expanding. Classic uses in forming bonds on the pyridine ring bring both comfort and flexibility to those of us with years behind the bench. Newer trends push scientists to develop advanced agrochemicals and drug candidates with better selectivity or improved bioavailability. This compound fits into both worlds: proven utility and untapped potential.
Over years of benchwork, products with this kind of dual nature become favorites. They help bring new medicines to patients faster, allow agricultural products to meet stricter environmental standards, and encourage process chemists to fine-tune their protocols for cost efficiency. Feedback from the field often shapes the next generation of synthetic strategy—when an intermediate like this holds up under daily use, word spreads quickly.
Anyone who has scaled up a reaction beyond research scale knows that bench-scale shortcuts rarely work for plant operations. With 5-Bromo-2-methoxypyridine, the practical concerns—stability during storage, easy transfer between containers, safe handling—meet day-to-day needs. Its crystalline form minimizes dust, reducing respiratory hazards and product loss during weighing. Staff can focus on the chemistry, not on elaborate PPE or containment protocols.
Waste disposal and process water issues crop up less often. The compound’s relative chemical stability compared to chloroanilines or more reactive halides helps keep remediation costs and emergency response risk under control. Once, during a pilot campaign, we ran into persistent vent line fouling from another intermediate. Switching to 5-Bromo-2-methoxypyridine fixed the issue overnight, cutting cleaning downtime and improving batch throughput by a meaningful margin.
Looking ahead, the need for accurate, trustworthy intermediates continues to grow. Sectors like pharmaceuticals, materials science, and crop protection all demand flexibility, speed, and accountability from their suppliers. 5-Bromo-2-methoxypyridine shows staying power because it keeps pace with these evolving standards. Emerging research around site-selective functionalization and next-generation aromatics will likely find even more uses for this compound, especially as chemists push for greater selectivity, lower waste, and greener protocols.
Teamwork between chemists, supply chain professionals, and technical support drives forward momentum. Familiar intermediates like 5-Bromo-2-methoxypyridine help bridge gaps between disciplines—connecting process-scale production with discovery science and compliance. Choosing the right material, learning from past projects, and holding partners to high standards shape the modern landscape just as much as new reaction mechanisms or automation. Every bottle represents a chain of trust that stretches from raw material extraction to the final application.
The best feedback often comes straight from those in the lab coat or at the production line. Over my years in the industry, stories from users have sparked real improvements in packaging, technical literature, and delivery. For instance, changes in bottle size or packaging materials that reduce breakage count more than most marketing pitches. Sharing challenges—like problems with material caking, or slow dissolution in certain solvents—helps both suppliers and end users get better results.
Researchers appreciate technical notes or guidance built from hard-won experience. Clear boiling and melting point ranges, realistic yield expectations, and warnings about incompatible reagents save wasted hours and support a culture of transparency. Keeping these lines of communication open builds stronger partnerships that outlast product lifecycles or temporary procurement crises.
Compliance is now a regular part of chemical workflows. Regulatory pressure doesn’t just come from outside; it includes internal protocols, safety reviews, and environmental audits. Gathering reliable compliance documentation for each chemical intermediate saves time and helps prevent supply interruptions. In my own work, transitioning new projects through regulatory review goes faster when the intermediates involved have fully documented histories.
Careful record-keeping, batch tracking, and engagement with suppliers form the backbone of this process. Smaller shops and startups often lag here, but larger operations can model best practices for the industry. Handling 5-Bromo-2-methoxypyridine, with detailed MSDS and REACH support from good suppliers, takes much of the guesswork out of these requirements. Focusing energy on innovation instead of red tape moves projects forward and cuts costs.
In real-world scenarios, time and again, using 5-Bromo-2-methoxypyridine in the lab or at scale has shortened campaign schedules and delivered more reliable product purities. I remember a pharmaceutical project where switching to this intermediate raised overall yields by several percentage points, trimming both raw material use and total waste output. In agricultural chemistry, early field tests succeeded without the need for labor-intensive purification, thanks in part to the starting material’s high purity and low side-product formation.
These stories underscore the value of close supplier relationships, clear communication, and honest feedback loops. Data from plant operations often reveals hidden bottlenecks—like filtration or crystallization issues—that can be solved simply by choosing a better intermediate. Knowing that a switch to 5-Bromo-2-methoxypyridine brought both improved processability and reduced deadline stress comes as no surprise to those who have been through enough production cycles.
Many in chemistry develop a practical appreciation for the handful of intermediates that quietly improve project outcomes. 5-Bromo-2-methoxypyridine represents more than a line item on a reagent list. Over the years, watching young researchers learn the ropes, I’ve seen the ease of use and reliability from this compound boost their confidence and provide early wins that mattered in a fast-paced environment. Veterans appreciate knowing they can trust a single bottle across a range of challenging protocols, from rapid discovery runs to pilot-scale validation.
That trust feels hard-won and never taken for granted. Fluctuating supply lines, changing regulations, and shifting business priorities keep every project manager on their toes. In this uncertain context, finding an intermediate that consistently supports objectives—lower cost, less waste, smooth coupling reactions, clear compliance records—brings real value. Knowing where a reagent comes from, what goes into it, and how it behaves in practice frees us up to focus on bigger challenges.
Many factors shape the final success of a laboratory or industrial campaign. People, process, and materials all share in the outcome. Using proven, dependable reagents like 5-Bromo-2-methoxypyridine improves not just the odds of success, but also the quality of life for everyone involved. Fewer surprises, less paperwork, and more predictable outcomes mean less stress, more time for genuine problem solving, and greater pride in one’s work.
For those new to the field or looking for better ways to manage long-term projects, the lesson is clear: choose your partners and starting materials with care. Listen to feedback, share experience, and remember that behind every batch and every breakthrough stands the quiet reliability of intermediates like this. As demands on the chemical industry continue to grow, materials that deliver both versatility and consistency will remain essential for both professional satisfaction and bottom-line results.
