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HS Code |
907523 |
| Compound Name | 2-Bromo-5-(difluoromethyl)pyridine |
| Molecular Formula | C6H4BrF2N |
| Molecular Weight | 208.01 g/mol |
| Cas Number | 1211514-67-4 |
| Appearance | Colorless to light yellow liquid |
| Boiling Point | 226 °C |
| Density | 1.69 g/cm3 |
| Purity | ≥98% |
| Smiles | C1=CC(=NC=C1Br)C(F)F |
| Flash Point | 104 °C |
| Solubility | Soluble in organic solvents |
As an accredited 2-BroMo-5-(difluoroMethyl)pyridine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The 2-Bromo-5-(difluoromethyl)pyridine comes in a 25g amber glass bottle with a tamper-evident cap and chemical safety labeling. |
| Container Loading (20′ FCL) | 20′ FCL container loaded with securely packed drums of 2-Bromo-5-(difluoromethyl)pyridine, ensuring safe transport and minimal contamination. |
| Shipping | 2-Bromo-5-(difluoromethyl)pyridine is shipped in a sealed container, labeled according to hazardous material regulations. Protect from light, moisture, and extreme temperatures. Handle with suitable personal protective equipment (PPE) as the substance may be harmful. Ensure compliance with all chemical transport regulations, including proper documentation and secure packaging to prevent leaks or spills. |
| Storage | **2-Bromo-5-(difluoromethyl)pyridine** should be stored in a tightly sealed container at room temperature, away from direct sunlight, heat, and sources of ignition. Store in a cool, dry, well-ventilated area, separate from incompatible materials such as strong oxidizers or acids. Ensure containers are clearly labeled and protected from physical damage. Follow all relevant safety protocols and regulatory requirements. |
| Shelf Life | 2-Bromo-5-(difluoromethyl)pyridine typically has a shelf life of 2 years when stored in a cool, dry, and dark environment. |
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Purity 98%: 2-BroMo-5-(difluoroMethyl)pyridine with purity 98% is used in advanced pharmaceutical intermediate manufacturing, where it ensures high yield and low impurity profiles in final compounds. Melting Point 42°C: 2-BroMo-5-(difluoroMethyl)pyridine characterized by a melting point of 42°C is used in fine chemical synthesis, where it provides predictable solid-state handling and reproducible crystallization processes. Molecular Weight 210.99 g/mol: 2-BroMo-5-(difluoroMethyl)pyridine with molecular weight 210.99 g/mol is used in medicinal chemistry research, where precise molecular tailoring facilitates structure-activity relationship studies. Stability Temperature 25°C: 2-BroMo-5-(difluoroMethyl)pyridine stable at 25°C is used in storage and transport of specialty chemicals, where long-term shelf stability is reliably maintained. Low Moisture Content <0.5%: 2-BroMo-5-(difluoroMethyl)pyridine with moisture content below 0.5% is used in anhydrous reaction environments, where water-sensitive transformations proceed efficiently without hydrolytic side reactions. Particle Size <100 µm: 2-BroMo-5-(difluoroMethyl)pyridine with particle size less than 100 µm is used in automated solid dispensing systems, where uniform powder flow and dose reproducibility are achieved. Assay by HPLC ≥99%: 2-BroMo-5-(difluoroMethyl)pyridine with HPLC assay greater than or equal to 99% is used in regulatory-compliant active ingredient synthesis, where assay consistency supports batch-release quality control. |
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Every day in our synthesis labs, we see the critical role 2-Bromo-5-(difluoromethyl)pyridine plays in building next-generation pharmaceuticals and complex agrochemicals. As the direct producer, we understand every detail that goes into crafting this pyridine derivative. Down here on the production floor, the journey of each batch—right from raw material selection through multi-step halogenation and purification—is monitored and controlled far beyond what intermediaries understand. The difference shows up in the product’s purity and in the way our team tailors the process to serve highly demanding research and manufacturing projects.
Decades hand-on with halopyridine systems have taught us that every substitution on the ring structure affects reactivity and downstream compatibility. 2-Bromo-5-(difluoromethyl)pyridine, with its difluoromethyl group at the 5-position and bromine at 2, stands apart due to targeted fluorine placement. In real-world synthesis, this means a balance between electronic effects and leaving-group behavior. Our chemists have refined control over fluorination and bromination steps, so purity and isomeric control remain high. From our reactors, this compound exits as a crystalline solid, characterized by minimal color and most batches exceeding 98% GC purity. Our experts retain hands-on involvement in confirming spectral signatures, supporting full traceability batch after batch.
Researchers looking for specific reactivity in heterocyclic building blocks often run into hurdles with unrefined material. This molecule performs better in demanding cross-coupling reactions—especially Suzuki and Buchwald-Hartwig protocols—because of the combination of bromine’s reliable reactivity and the strong electron-withdrawing nature of the difluoromethyl group. Every day, pharmaceutical chemists approach us needing robust intermediates to unlock new areas of SAR studies or to functionalize scaffolds under mild conditions. Smaller or impure lots from casual traders introduce side reactions or inadequate conversions, often costing time and resources. Commitment to tight impurity thresholds and moisture control turns out to be the deciding edge. Direct batches from our facility show improved handling, yield, and reproducibility, especially in pilot and plant-scale campaigns.
It’s easy to lump halopyridines together, but practical experience highlights the special versatility of this molecule. 2-Bromo-pyridines appear everywhere, but the addition of a difluoromethyl at the 5-position transforms the electronic character. Our product offers a stronger electron-withdrawing effect without compromising bromine’s leaving-group properties. Compared to 2-bromo-5-methylpyridine, the difluoromethyl substitution tunes the ring for different selectivities and better stability. For those who push reactivity in challenging transformations, a cleaner spectrum and tighter control on isomeric purity make isolation and downstream characterization even more reliable. Plant-scale customers noticed improved handling profiles, both in terms of dusting and batch-to-batch crystal habit.
We spend as much time listening to bench chemists as we do on process control. Too often, off-spec shipments from non-producers or poorly documented lots force costly re-validation. Supplying 2-Bromo-5-(difluoromethyl)pyridine directly means every shipment has a transparent record, traceable from lot release through final QA. Our on-site analytical lab confirms not just NMR and GC data, but also elemental analysis and moisture content. Customers from early-stage medicinal chemists to pilot-plant process teams have had success integrating our product into different synthetic routes—easier dissolving for coupling reactions, lower formation of side products in halogen displacement, and reduced risk of polymerization or decomposition under scale-up conditions.
Fluorinated intermediates bring their own handling quirks. Long before the first bottle ships, we perform stability and compatibility checks for storage and shipping. Bulk customers benefit from insights gained during our own manufacturing runs: we know which packaging variants protect against humidity ingress, and our systems ensure safeguarding during temperature fluctuations in transit. Our logistics and technical teams continually update protocols based on direct product feedback, minimizing surprises for end users while improving overall lab safety. Over the years, feedback loop between production and application support has led to less degradation during long-term storage, fewer issues during weight-out operations, and more predictable reactivity in multi-gram to multi-kilogram scales.
Direct supply comes with complete data transparency. Each batch leaves the plant accompanied by a full suite of analytical documentation—NMR spectra, GC chromatograms, water content data, and impurity profiling. We archive every result, providing support for regulatory or patent documentation without delay. Simple access to technical support is a core part of our product offer: chemists on our line field application questions daily, sharing real-world tips about solubility adjustments, optimal reaction temperatures, and purification techniques. By passing on practical advice that comes from repeated manufacturing cycles, we help others reduce timelines and move projects forward efficiently.
Not every project needs the same volume, and our plant is built to accommodate trial-sized samples up to large-scale drum shipments. Over the years, scale-up projects have challenged us to maintain the same purity and physical profile whether filling a single kilogram or a full container. Our response is multi-step control over every stage, from reaction charge ratios to final drying and crystalline inspection. Customers—especially those bridging from bench to commercial production—notice minimal need for process adjustment when switching volumes. That continuity comes from repeated investments in plant improvements and from ongoing dialogue with users facing scaling stress. We share experiences on how our product behaves across different solvents, pressure reactors, and downstream purification systems.
Across dozens of medicinal chemistry projects, our material has stood out in preserving high regioselectivity and functional group tolerance. In recent collaborations, teams reported improved yields in both aromatic substitution and organometallic couplings using our batches compared to competing samples. The difference stems not from marketing claims, but from hands-on process refinement—from controlling reaction conditions during halogenation to precise solvent selection during recrystallization. Ring integrity and minimal bromide elimination ensure not only cleaner reactions, but also easier product isolation at scale.
A closer look at the manufacturing process highlights why direct production matters so much. High yields and tight impurity profiles depend on sourcing high-quality difluoromethylating agents, maintaining strict exclusion of water and air at several steps, and preventing side reactions such as over-halogenation or ring cleavage. In our facility, operators track every raw material lot and monitor air quality during sensitive transfer stages. Regular equipment calibration keeps contamination risks low. These methods don’t appear in distributor warehouses and mean that every bottle sent out carries the benefit of accumulated expertise.
Drug discovery timelines tighten every year, and material delays or off-spec issues have real costs. We hear daily from researchers who have waited weeks for critical lots, only to receive impurities or mismarked labels that bring entire syntheses to a halt. As direct manufacturers, we’ve built production capacity with redundancy and contingencies for short-notice orders. Teams in both R&D and logistics coordinate directly, shipping material quickly while upholding every quality metric. Revenue growth and customer retention in this segment track closely with investment in direct customer engagement. We offer flexible ordering, ongoing technical dialogue, and willingness to adapt process schedules for validated urgent needs.
Having walked through countless production runs, we know that buyers want more than just a reagent—they need a dependable supply chain and credible technical backup. We extend value through custom packaging options, detailed logistics oversight, and ongoing knowledge transfer to clients facing challenges in route scouting or process development. In several cases, teams have worked alongside our chemists to develop custom derivatives or fine-tune physical properties like particle size or moisture resistance. That adaptability helps buyers navigate complex patent landscapes and evolving regulatory expectations.
Our roots in chemical manufacturing reveal the gaps that arise in third-party sourcing. Traders sell generic product drawn from unknown stock, often lacking full documentation or stability data. Direct links to our plant enable chemists to request right-size packaging, tailor analytical services, and get real explanations for unexpected analytical results. In the past year, process chemists using our product have reported fewer re-batch cycles, less downtime due to impurity troubleshooting, and greater success scaling from grams to multi-kilogram loads without reformulating. The reliability doesn’t just affect materials management; it keeps whole science programs on schedule.
Process improvement calls for more than high purity on paper—it involves the way real-world lots behave in reactors, filtration set-ups, and analytical instruments. Plant-scale formulators working with our 2-Bromo-5-(difluoromethyl)pyridine comment on cleaner filtrates, less particulate carry-over, and faster dissolution in commonly used solvents. Analytical feedback loops between our factories and user labs make us better at tuning the crystal habit and minimizing static or dusting. At the process validation stage, pharmaceutical firms measure both impurity carry-over and reproducibility of final product profiles. Direct sourcing sharpens every metric that matters for audit preparation and downstream regulatory filings.
Our focus on direct, honest supply and hands-on technical support shows up in repeat business and project feedback. As new synthetic routes emerge and regulatory frameworks evolve, we channel new process data back into the plant, upgrading filtration, drying, and packaging to match shifting demands. In-house research remains a core value, as does open communication with pharmaceutical and chemical end-users. This collaborative approach leads to practical innovation—better process throughput, simplified “right first time” documentation, and more dependable performance at every stage from R&D to production.
Manufacturing 2-Bromo-5-(difluoromethyl)pyridine at scale means taking responsibility for every lot that leaves our line. It calls for deep understanding of pyridine chemistry, pride in process rigor, and ongoing dialogue with the scientists who put this reagent to use. Direct experience guides every decision, ensuring safer handling, higher purity, stronger batch-to-batch consistency, and better end results for the global chemical community. Working directly with us means tapping into a supply relationship that values quality at every stage, and a team committed to supporting breakthroughs across the fields of pharmaceuticals, agrochemicals, and beyond.
