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HS Code |
868287 |
| Productname | 2-Hydroxy-6-trifluoromethylpyridine |
| Casnumber | 2444-16-4 |
| Molecularformula | C6H4F3NO |
| Molecularweight | 163.10 |
| Appearance | White to pale yellow solid |
| Meltingpoint | 56-59°C |
| Boilingpoint | 225-227°C |
| Density | 1.38 g/cm3 |
| Solubility | Slightly soluble in water, soluble in organic solvents |
| Purity | Typically ≥98% |
| Smiles | C1=CC(=NC(=C1O)C(F)(F)F) |
| Inchi | InChI=1S/C6H4F3NO/c7-6(8,9)4-2-1-3-10-5(4)11/h1-3,11H |
As an accredited 2-Hydroxy-6-trifluoromethylpyridine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 2-Hydroxy-6-trifluoromethylpyridine, 25g: Supplied in a sealed amber glass bottle with tamper-evident cap and safety labeling, clearly marked. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL): 10 MT packed in 200 kg HDPE drums, securely arranged to prevent shifting and ensure safe transport. |
| Shipping | 2-Hydroxy-6-trifluoromethylpyridine should be shipped in tightly sealed containers, protected from moisture and light. It must comply with all relevant transport regulations for hazardous chemicals. Ensure appropriate labeling, use of secondary containment to prevent leaks, and provision of safety data sheets. Shipping should be via certified chemical carriers only. |
| Storage | 2-Hydroxy-6-trifluoromethylpyridine should be stored in a tightly closed container, in a cool, dry, and well-ventilated area away from sources of ignition and incompatible materials such as strong oxidizers. Protect from moisture and direct sunlight. Use secondary containment to prevent leaks or spills, and label the storage area clearly. Keep out of reach of unauthorized personnel. |
| Shelf Life | 2-Hydroxy-6-trifluoromethylpyridine typically has a shelf life of at least 2 years when stored cool, dry, and protected from light. |
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Purity 99%: 2-Hydroxy-6-trifluoromethylpyridine with 99% purity is used in pharmaceutical intermediate synthesis, where it ensures high yield and reduced byproduct formation. Molecular Weight 163.09 g/mol: 2-Hydroxy-6-trifluoromethylpyridine of molecular weight 163.09 g/mol is used in agrochemical research, where it enables accurate formulation and consistency. Melting Point 56°C: 2-Hydroxy-6-trifluoromethylpyridine with a melting point of 56°C is used in solid-phase synthesis, where it facilitates controlled processing and thermal stability. Stability Temperature 120°C: 2-Hydroxy-6-trifluoromethylpyridine stable up to 120°C is used in high-temperature reactions, where it ensures compound integrity during extended heating cycles. Particle Size <25 μm: 2-Hydroxy-6-trifluoromethylpyridine with particle size less than 25 μm is used in catalyst preparation, where it promotes optimal surface area and reaction efficiency. Water Content <0.1%: 2-Hydroxy-6-trifluoromethylpyridine with water content below 0.1% is used in moisture-sensitive organic syntheses, where it prevents hydrolytic degradation. |
Competitive 2-Hydroxy-6-trifluoromethylpyridine prices that fit your budget—flexible terms and customized quotes for every order.
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Over the years in chemical manufacturing, we have learned that success hinges on careful understanding of the product, process, and most importantly, customer needs. Take 2-Hydroxy-6-trifluoromethylpyridine for example. At first sight, it appears as just another aromatic compound, but closer inspection reveals its place as a cornerstone in several synthesis pathways for advanced materials, pharmaceuticals, and agrochemicals.
Consistent production starts with control over the raw input streams. Poor quality in the precursor pyridine or uncontrolled exposure during synthesis can throw off product purity, rendering it less reliable in downstream applications. During our initial years scaling up manufacture, small temperature deviations caused unwanted isomers—purification bottlenecks that took real grit to overcome. Today our process lines for 2-Hydroxy-6-trifluoromethylpyridine maintain tight tolerances on temperature, pressure, and pH, with digital monitoring at several reaction stages. This means the purity we deliver isn’t an afterthought. It’s the starting point for every batch.
Requesting this compound demands clear specifications. Our batches of 2-Hydroxy-6-trifluoromethylpyridine ship with a minimum purity of 98%. Moisture, a common nemesis in pyridine derivatives, gets managed through deep vacuum drying, confirmed by Karl Fischer titration. GC and NMR serve as our guiding tools, not because they satisfy some certification department—our analysts lean on them to catch the minor impurities that crop up whenever trace side reactions rear their head.
Physical form matters just as much. Early clients asked for a powder, but this turned out to be dusty, hard to weigh, and slow to dissolve in organic solvents during scale-up work. Over time, our process switched to producing dense crystalline flakes. No more clouds of fine particles, no headaches for plant operators. Refinements like this don’t come out of thin air—they stem from repeated handling, listening to users, and facing difficulties with our own hands in real-world settings.
Applications for 2-Hydroxy-6-trifluoromethylpyridine run broad, but demand centers around pharmaceutical and crop-protection synthesis. Medicinal chemists tell us its hydroxy group smooths out key transition steps such as O-alkylation and palladium-catalyzed couplings. In crop protection, the electron-withdrawing trifluoromethyl group sets up selective halogenation or substitution, creating actives with stronger metabolic stability out in the field.
This compound doesn’t perform alone—it acts as a builder block in larger syntheses. The five-membered ring, with both hydroxy and trifluoromethyl handles, lends versatility. Need to block one position and functionalize another? The reactivity profile helps speed up route scouting. Our partners in scale-up projects noted sharper yields and fewer purification headaches compared to shifting between less stable pyridine or pyridone intermediates. Less time adjusting for unexpected side reactions meant they hit project deadlines more reliably.
Customers rely most on our technical support, especially when methods need to be adjusted from lab to pilot scale. Reproducibility takes center stage, so our technical staff monitors not just the content of the main compound, but every documented contaminant down to the detection thresholds. More than one customer has thanked us for catching small process levers that come from lots of hands-on experience with the material.
2-Hydroxy-6-trifluoromethylpyridine doesn’t live in a vacuum. Many clients have compared it to alternatives such as 2-hydroxypyridine or versions with different fluorination on the ring. They often tell us that the trifluoromethyl at the 6-position improves chemical stability, especially under oxidative or acidic conditions—key factors for pharmaceutical developers. The material’s handling properties matter too. Years of process optimization have decreased residue-forming side products, so our customers report easier clean-up and reduced material losses during transfer.
We continue to invest in minimal batch-to-batch variability. Clients have shared stories of ordering from third-party traders, only to find shifts in color, melting point, and reactivity from drum to drum. Working directly with a manufacturer like us solves these issues. We keep comprehensive documentation and batch retain samples for several years, letting customers trace back any question to concrete data.
Some see molecular differences as academic. People working with this compound at the bench know that subtle recipe shifts—how fast to add the base, how much solvent to use—impact more than just a reaction’s theoretical yield. They can mean the difference between a smooth campaign and chasing ghost peaks across chromatograms. Feedback from pharmaceutical and pesticide formulation teams shapes the product we ship today. Our chemists keep logs of customer phone calls, lab reports, even walk plant floors to see first-hand how the material fits (or doesn’t) in customers’ processes.
Manufacturing 2-Hydroxy-6-trifluoromethylpyridine at multi-tonne scale poses distinct challenges compared to glassware in a research lab. Safe handling of precursor materials—especially those prone to hazardous by-products—calls for both design foresight and operational discipline. Our teams invest substantial hours in hazard analyses, reviewing every incident logged at our sites. We’ve learned containment, venting, and real-time monitoring aren’t theoretical exercises; they cut downtime and keep people safe.
From experience, insufficient ventilation and moisture control in production can cripple productivity. The trifluoromethyl group increases volatility under certain conditions, raising the risk for emissions unless plant controls meet strict standards. Our site employs multiple filtration systems and a near real-time leak detection setup. Investing here costs real money, but the costs of not doing so—exposure events, lost inventory, regulatory hassle—dwarfs the upfront expense over time.
Reaching customers worldwide means not just hitting purity and stability targets, but also navigating logistics and local regulations. Each geography brings different compliance puzzles. Some require specific labeling on containers; others insist on purity by alternative analytical techniques. Our regulatory staff reviews every shipment, and we keep complaint rates extremely low through double-checking before material leaves our gates.
Producing specialty pyridine products rarely follows a one-size-fits-all approach. Annual customer reviews help us understand shifting formulation needs and upcoming project plans. Last cycle, we redesigned the crystalline drying step to minimize trace solvent carryover—an issue uncovered through feed-back from major pharma partners. We invest yearly in upgrading reactors and controls, improving energy efficiency, and lowering waste per kilogram of product. Metrics matter, but front-line operator insights often point us to the biggest gains.
Our R&D team supports troubleshooting for customers trying new applications. Sometimes the molecule’s reactivity opens synthetic doors that weren’t obvious five or ten years ago. We push our pilot labs to test alternative synthesis routes as markets and environmental rules shift. Producing high-purity 2-Hydroxy-6-trifluoromethylpyridine isn't just a box to check—it’s a partnership, aligned with the needs and feedback of everyone who depends on consistent quality for process reliability.
Sourcing from the manufacturer brings tangible advantages. We control batch release standards, manage our own logistics, and maintain inventory buffers for core clients. Unanticipated process upsets—be it during raw material shortages or transport hiccups—receive immediate attention from our in-house teams. Customers report quicker resolution times and greater confidence in planned production campaigns.
Supply chain reliability feeds directly into project budgets and time-to-market considerations in pharmaceuticals and crop science. Our direct partnerships with users enable realistic lead times. We see this as a foundation for mutual success, not just a transactional detail. Repeat orders flow smoothly because we know the intricacies of both our own process and the often demanding quality requirements in customers’ plants.
Past experience shows that market needs rarely stay the same for long. Regulatory changes, new synthetic methods, and performance standards mean we’ve had to rethink product specs and production approaches several times in the past decade. For 2-Hydroxy-6-trifluoromethylpyridine, we stay engaged with both academia and the applied research community—listening for trends in functional group chemistry, therapeutic innovation, and green chemistry drivers.
Staying reliable means being flexible without compromising on quality and documentation. We take pride when clients approach us not just for a product, but for technical input, troubleshooting, and advice on scaling. Our chemists look beyond just the next drum shipment, anticipating what users might need as techniques and end uses change.
Among pyridine derivatives, 2-Hydroxy-6-trifluoromethylpyridine distinguishes itself by enabling both selective functionalization and high chemical durability. Alternative substrates sometimes lack the stability or electron profile to unlock similar synthetic routes. We receive requests to benchmark our batches against both non-fluorinated and alternative fluorinated pyridines. Clients consistently find that the combination of substitution pattern and hydroxy functionality streamlines downstream route design and minimizes formation of unwanted side-products during key coupling reactions.
From a physical standpoint, the crystalline form sidesteps the handling inconveniences common with powders. There is less risk of inhalation exposure, easier measurement, and improved dispersion in solvents typical of process-scale chemistry. In some years, we’ve also fielded development trials for customers seeking melt-processing or alternative formulation forms, further demonstrating the adaptability built into this product.
Users in the medicinal chemistry space comment on its metabolic resilience and the unique electronic properties imparted by the trifluoromethyl group. Feedback from crop protection formulators indicates the compound delivers improved environmental stability for field-active molecules relative to non-fluorinated analogues. These characteristics weren’t stumbled upon—they reflect specific process decisions and hands-on testing at every stage of development.
Direct engagement drives our continuous improvement. We invite chemists, process engineers, and procurement specialists to discuss any unique project or synthesis hurdle. Over the years, we’ve visited customer sites, gathered feedback in person, seen the everyday frustrations, and used these insights to refine both the product and service we provide. This means every order shipped reflects not only chemical know-how but a shared commitment to helping research and production run more smoothly.
Staying ahead doesn’t mean resting on decades-old methods. We invest in pilot reactors, upgrade digital controls, and refine our analytics to meet the high standards expected by the industries we serve. Our technical support answers real questions—how to scale a reaction without losing material, keeping moisture below critical levels, and troubleshooting method variations. By bringing together our manufacturing team and the end user, we deliver more than just specification sheets—we add the steady hand of real-world expertise.
Quality in chemicals does not spring from paperwork—it grows out of seeing, touching, and running the process day after day. Problems don’t always show up in lab scale trials, but the production floor never lies. We’ve learned that real product improvements—form, packaging, analytical checks—stem from listening to how people use what we make. 2-Hydroxy-6-trifluoromethylpyridine today isn’t the same product we first scaled a decade ago; every step forward has involved tackling new problems, learning, and collaborating with customers to deliver a substance that performs consistently, not just in our plant, but in their hands.
We’ll keep listening, testing, and adapting. The real story behind our 2-Hydroxy-6-trifluoromethylpyridine lies in years of production, endless troubleshooting, and a commitment to improvement aligned with both scientific challenges and customer goals. This is how strong, reliable chemical manufacturing grows—and why the compound remains a critical piece of innovation for users in research labs, pilot plants, and large-scale production facilities around the world.
