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HS Code |
505182 |
| Product Name | 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine |
| Cas Number | 690632-77-4 |
| Molecular Formula | C7H5BrF3N |
| Molecular Weight | 240.02 g/mol |
| Appearance | White to off-white solid |
| Melting Point | 42-46 °C |
| Purity | Typically ≥98% |
| Smiles | CC1=NC(=CC(=N1)C(F)(F)F)Br |
| Solubility | Soluble in organic solvents such as DMSO and dichloromethane |
| Storage Condition | Store at 2-8 °C, in a tightly closed container |
| Synonyms | 6-Methyl-2-bromo-4-(trifluoromethyl)pyridine |
| Hazard Statements | May cause skin and eye irritation |
As an accredited 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Amber glass bottle containing 25 grams of 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine, tightly sealed with a screw cap and hazard label. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): 12MT packed in 240 fiber drums, each 50kg net, suitable for safe transport of 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine. |
| Shipping | **Shipping Description:** 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine is shipped in tightly sealed, chemical-resistant containers to prevent leaks or contamination. The shipment complies with relevant regulations for hazardous materials, including correct labeling and documentation. It is transported under ambient conditions, with precautions taken to avoid moisture, extreme temperatures, and direct sunlight during transit. |
| Storage | 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine should be stored in a tightly closed container in a cool, dry, well-ventilated area, away from sources of ignition, heat, and direct sunlight. Store separately from incompatible substances such as strong oxidizing agents. Ensure storage area is equipped to contain spills. Keep the chemical container labeled and protected from physical damage. |
| Shelf Life | 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine is stable for at least 2 years when stored in a cool, dry place. |
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Purity 98%: 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine with purity 98% is used in pharmaceutical intermediate synthesis, where it ensures high yield and product consistency. Melting Point 48-51°C: 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine with a melting point of 48-51°C is used in automated chemical processes, where it supports stable and reproducible reactions. Molecular Weight 260.03 g/mol: 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine with a molecular weight of 260.03 g/mol is used in heterocyclic compound formulation, where it provides optimal reactivity for target molecules. Particle Size <50 μm: 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine with particle size less than 50 μm is used in fine chemical production, where it enables improved dissolution rates and homogeneous mixing. Stability Temperature up to 100°C: 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine with stability temperature up to 100°C is used in thermal processing, where it maintains chemical integrity during heat treatment. |
Competitive 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine prices that fit your budget—flexible terms and customized quotes for every order.
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Years of hands-on experience in synthesizing specialty chemicals have shown us that not all pyridines behave the same in the lab. One such pyridine, 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine, stands out because it brings together structural adaptability with the clean reactivity that seasoned chemists demand. As the manufacturer, we do not simply route catalogs; we operate the reactors, manage the hazards, and own the process from raw intake to finished shipment. Every lot carries the history of careful selection, control, and validation that only comes from first-hand supervision.
With a structure defined by a bromine atom at the 2-position, a methyl group at the 6-position, and a trifluoromethyl group anchoring the 4-position, this molecule behaves with a balance between reactivity and stability. That trifluoromethyl group does more than decorate the skeleton; it tunes the electronic environment, helping drive selectivity in modern pharmaceutical synthesis. We produce batches that crystallize with consistency and pack predictability into every drum, because impurities, no matter how small, can trigger failures downstream. Years of hands-on quality control have shown the difference a 99.5% purity standard can make; trace halides or unreacted starting materials trigger color changes, resin fouling, or loss of yield far down the pipeline. All our material receives full NMR and GC validation.
Chemists working in fluorinated compound synthesis or elaborate pyridine scaffolds have long sought functionalized intermediates like ours. Demand for 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine arises in the pharmaceutical active ingredient supply chain, especially for projects seeking to balance biological activity with metabolic resilience. Our product frequently handles the initial coupling in C–N or C–C bond forming reactions— Suzuki, Buchwald-Hartwig, or Stille protocols—because the electron-deficient ring and robust side groups help minimize side reactions. Our own in-house development work with custom labels and extended analogues has repeatedly shown how small tweaks in methyl or CF3 positioning can change outcomes for kinase inhibitors, agrochemicals, and diagnostic probes.
Production doesn’t begin with a clean flask. Bromine, methyl, and trifluoromethyl sources each bring environmental and handling challenges, and years of process refinement have taught us to stay vigilant from prep to packing. Scaling up this compound from hundreds of grams in the bench lab to tens of kilograms for commercial users required careful adaptation, not just bigger vessels. Temperature control during the bromination step, the precise timing of methylation, and post-reaction workups all shape the final outcome. Some competitors trade purity for speed; our experience says that saving a day in turnaround isn’t worth a rejected batch when stringent specifications govern registration or regulatory audits.
Most pyridine-derived bromides share a similar skeletal backbone, yet adjusting the ring substituents changes everything. Adding trifluoromethyl at the 4-position, for example, has consistently delivered better shelf-life and lower risk of unexpected oxidation under standard storage conditions—a truth grounded in our routine stability studies, not marketing copy. Compounds lacking this group show faster color drift and more byproduct formation over time.
Introducing a methyl at the 6-position improves safety for halogen-metal exchange reactions. Methylated material consistently delivers cleaner NMR profiles after metalation and cross-coupling, with less byproduct oligmers. In routine pilot and scale-up campaigns, we’ve consistently found that batches without the methyl group lead to increased tar formation and more difficult downstream extraction.
Efficiency in chemical manufacturing isn’t simply a buzzword; it decides whether a kilogram makes it to market or gets trashed after an Abnormal batch report. Our process for manufacturing 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine minimizes side-product formation at every turn. This approach directly influences customers’ cost-per-kilogram of active ingredient, as purification costs can quickly wipe out any savings from cheaper, lower-purity materials. More than once, customers have returned to us after failing to process third-party “equivalent” grades; fouling in their reactors, off-flavor in intermediates, and unpredictable yields add up to a risk no established group should take.
Tighter regulatory scrutiny worldwide means buyers now look not just for technical grade product, but for full traceability. Our internal systems maintain digital records for every batch—from sampling composites to final drum labels. Each drum ships with full spectral confirmation, moisture readings, and a chain of custody report. Early on, we learned that no matter how carefully you produce the material, a missing documentation step can slow the whole shipment at customs, or compromise audit-readiness for key customers.
Our facility, like every reputable manufacturer today, faces growing pressure to minimize waste. The reaction sequences for this pyridine demand robust containment and recovery systems, especially for excess bromine and fluoro-alkyl reagents. Solvent handling has long ranked as a leading source of emissions in chemical plants; we recover and recycle over half the solvent volume needed for routine operations, slashing both environmental impact and overhead. We’ve invested in scrubbing and monitoring units, not to check off compliance boxes, but to avoid fines and, more importantly, community complaints. Time spent with a local inspector in our solvent bays taught us to err on the side of caution, not shortcuts.
Even with smart automation and digital recipe management, human error remains a reality in any manufacturing line. Training chemists and technicians to recognize subtle variations in color, reflux behavior, or exothermic activity makes the difference between an in-spec and a problem batch. Over the years, our team has documented dozens of “near misses”—discoveries that saved entire tanks of material because someone spotted a wrong label, an off odor, or a temperature drift during the key methylation step. Automated analysis may catch gross violations, but eyes, noses, and hands built over years remain irreplaceable for quality assurance, especially with specialty nitrile, bromo, or fluoro intermediates.
We do not simply push product out the gate. Direct feedback from formulators, medicinal chemists, and pilot engineers has improved our final offering. Developers building new analogues based on the 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine scaffold often contact us during late-stage process development, seeking insight into residual impurities or tips for maximizing throughput in scale-up. Our engagement goes beyond shipping product; we’ve literally run side-by-side pilot reactions, tweaking conditions until the end-user receives the compound in the optimal format, from dried powder to custom-wetted cakes or diluted solutions. Repeat sales have less to do with marketing channels and more with dependability. One missed delivery deadline or failed quality check undermines years of effort; hands-on support and consistent documentation build long-term trust in the chemical industry.
Maintaining physical and chemical integrity throughout storage and transport ranks high on our list. Temperatures matter more than desk planners admit. This product stores best under nitrogen and away from sunlight, a lesson burned into our Standard Operating Procedures after a summer warehouse incident left one batch too discolored for customer use. Awareness of how pyridines interact with rubber gaskets and valve seats further ensures each shipment maintains potency until it reaches the reactor. Safety personally matters to our team because we share the same space—same forklifts, same air, same exits. PPE standards, regular worker training, and periodic drills go beyond policy; they keep people safe from spills, splashes, and accidental inhalation, and that care speaks just as much to quality as any test result.
Exporting fine chemicals never works as a simple shipping exercise. Each country sets unique policies for halogenated and fluorinated materials, and keeping abreast of new requirements shapes not only our documentation, but even synthesis planning. Coordinating with customs, arranging proper UN packaging, and completing destination-specific declarations all require ongoing dialogue with our legal and operations teams. Hard-won experience in navigating delays at port, rejections for missing hazard markings, and mid-shipment inspections has taught us to double-check, not rush. Every delayed container means a real customer downstream waiting on a project milestone; rigorous compliance earns repeat business from buyers tired of last-minute headaches.
A reproducible product asks for adaptability in scale and approach. Suppliers sometimes encounter shortages of precursors, bringing challenges we must anticipate months in advance. We’ve developed alternate synthetic routes, stockpiled critical raw materials, and maintained strong relationships with seed supply chains to ensure production never pauses when one extruder shuts down or when a specialty fluorine reagent runs short. The hands-on reality of chemical manufacturing brings constant surprises that can derail a careless operation. By investing in redundancy and alternate planning, we maintain batch integrity under real-world challenges.
Every new project underway at our manufacturing site builds on what we’ve learned with 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine. As regulatory and commercial landscapes shift, we continue to review and refine processes, actively soliciting input from our customers’ new applications and formulation teams. Just as we were once the first to commit to high-throughput coupling grade lots for this compound, we remain open to next-generation specifications, from chiral variants to custom concentrations.
Operating the plant involves more than following recipes. It means fostering a workplace where questions and innovation remain welcome, tolerating the initial slowdown, but gaining better yields and safer conditions in the process. Only by listening—to the engineers, the maintenance teams, the bench chemists—have we managed to improve throughput, cut downtime, and maintain the kind of lot-to-lot consistency that advanced industries demand.
Every gram of 2-Bromo-6-methyl-4-(trifluoromethyl)pyridine we ship carries with it the fingerprints of real people—skilled labor, practiced oversight, and the determination to deliver a product knowing the risks, the challenges, and the effort required. From raw material inspection to finished product packing, our manufacturing approach isn’t just about making molecules; it’s about building relationships, solving problems, and helping unlock the next chapter in advanced synthetic chemistry.
