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HS Code |
570602 |
| Chemical Name | 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine |
| Molecular Formula | C8H10BrNO |
| Molecular Weight | 216.08 g/mol |
| Cas Number | 694499-04-6 |
| Appearance | White to off-white solid |
| Solubility | Soluble in organic solvents (e.g., DMSO, ethanol) |
| Purity | Typically ≥ 95% |
| Storage Conditions | Store at room temperature, protected from light and moisture |
| Smiles | CC(C)(O)C1=NC(=CC=C1)Br |
As an accredited 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Amber glass bottle containing 10 grams of 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine, sealed with a screw cap, labeled with safety details. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine: 12 MT packed in 200 kg UN-approved drums, safely palletized. |
| Shipping | 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine is shipped in sealed, chemical-resistant containers under ambient conditions. Packaging ensures protection from moisture and light, with appropriate hazard labeling. Transport complies with local and international regulations for handling and shipping of laboratory chemicals. Shipping documents include safety data sheets and handling instructions for safe delivery. |
| Storage | Store 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine in a tightly sealed container, kept in a cool, dry, and well-ventilated area away from moisture, heat, ignition sources, and incompatible substances such as strong oxidizers and acids. Protect from direct sunlight and avoid prolonged exposure to air. Properly label the container and follow standard laboratory safety protocols when handling and storing. |
| Shelf Life | 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine typically has a shelf life of 2 years when stored in a cool, dry place. |
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Purity 98%: 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine with purity 98% is used in pharmaceutical intermediate synthesis, where high purity ensures reproducible drug precursor formation. Melting Point 73°C: 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine with a melting point of 73°C is applied in organic synthesis, where controlled phase behavior enhances reaction efficiency. Moisture Content <0.5%: 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine with moisture content below 0.5% is utilized in agrochemical development, where low water levels prevent unwanted hydrolysis. Stability Temperature 25°C: 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine with stability at 25°C is deployed in materials science research, where ambient stability facilitates extended storage and handling. Particle Size <100 μm: 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine with particle size under 100 μm is used in solid formulation processes, where fine granularity enables uniform blending. |
Competitive 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine prices that fit your budget—flexible terms and customized quotes for every order.
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Not every lab needs a textbook example. Over the years, requests for precise intermediates have shaped the direction of chemical manufacturing. Among these, 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine stands out. We synthesize this compound at scale in our facility. Demand for specialty pyridines surged with the rise of tailored pharmaceutical and agrochemical development. Meeting those demands takes hands-on expertise. Each batch arrives free from unreliable by-products that can bog down your own work-up downstream.
Labs and production chemists grew tired of off-flavor impurities and inconsistent potency in intermediate stocks. We saw that repeated in analytical requests, especially from those advancing new heterocycle libraries. After all, time spent purifying or tracking down ambiguous peaks means less time developing the next useful molecule. So we addressed it head-on, tuning our process to deliver 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine with a focus on tight isomer and residual solvent controls. Recent years brought more customers scaling projects from bench to pilot—consistency remains constant.
This compound’s profile developed around several key requests. Chemists from medicinal, crop protection, and advanced materials backgrounds let us know: offer reliable lot-to-lot purity, keep residual solvents below detection limits, and maintain clear, reproducible physical properties. We’ve matched each production cycle to those needs. Typical output is a pale solid—easy to handle, with a sharp melting point and a moisture profile kept under strict guard. Beyond that, every request for a CoA comes with up-to-date analytics, not standard boilerplate.
The real difference appears in practical chemistry. Not every halopyridine handles downstream reactions as smoothly. Here, the combination of the bromo substituent (at the 2-position) and a tertiary-alcohol group (at the 6-position) offers a smart entry point for both N-alkylations and cross-couplings. That tertiary alcohol protects adjacent sites during other transformations, minimizing byproduct headaches. We keep the side product profile tight after stripping off extraneous organics and reining in water by Karl Fischer methods. That means more predictable reactivity and fewer chromatographic surprises down your pathway.
Chemists typically seek 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine for early scaffold builds. We see it put to work in palladium-catalyzed couplings and selective nucleophilic substitutions. Medicinal chemists report cleaner reactions for targets bearing bulky side groups at the 6-position. At scale, careful handling preserves the integrity of the tertiary alcohol throughout demanding multi-step programs. The structure gives more than just a leaving group—its pattern of reactivity supports both aromatic and side-chain modification, broadening the range of construction for new small molecules. Clients feed back that yields run higher than those seen from similar bromo-substituted pyridines lacking the same steric and electronic protection.
Producing this compound is not rote work. Our team refined each synthesis cycle, choosing safe, scalable reagents and controlling exotherms at each bromination stage. Tight temperature profiles in our reactors guard against unwanted dibromination or ring degradation. Each purification run isolates the core material with a minimum of secondary cleanup. We analyze for intact structure by NMR along with residual solvent checks by GC, and every lot undergoes water testing. Reproducible output happens because shop-floor chemists run and check each stage—not just management looking at numbers on a report.
Customers sometimes weigh this product against cousins like 2-bromopyridine or other 2-halopyridines with different side chains. The tertiary alcohol at the 6-position lends distinct selectivity compared to methyl, ethyl, or even aryl substituents. Those differences play out in real-life chemistry—both in the transformations themselves and in the isolation or purification that follows. Notably, the hydroxy-1-methylethyl group resists over-alkylation. This allows for controlled downstream derivatization, especially attractive in stepwise functionalization programs. By comparison, standard 2-bromopyridine tends toward wide reactivity and more byproducts. Solid handling features—along with batch reproducibility—keep this compound from behaving unpredictably compared to more reactive or less hindered analogs.
Quality control is a priority. Specification sheets often miss how delicate the balance remains in fine chemical manufacturing. We test for more than purity percentages—each batch meets strict benchmarks for melting point, NMR profile, and water content. These aren’t just numbers for paperwork; they save our customers both time and headaches. Sub-quality intermediates threaten yields, bring ambiguous results, and can throw an entire project off. Our facility isolates each run from atmospheric moisture, handling all packaging under anhydrous conditions. We understand how each ppm matters.
Shipping this compound forms part of the service. Each drum or bottle runs under moisture-blocking seals. We listen closely to feedback from veteran purchasing managers—clarity on labeling, proper safety packaging, and documentation that tells the real story of each lot. Our shipping partners treat each load as a priority, many times under temperature-stable conditions. End-users in both large and small labs report material arriving in prime condition, with no ambiguous discoloration or caking. Timely logistics minimize delays so your schedule stays on track.
As production chemists, we recognize the growing push for greener processes. Our plant takes that seriously. Waste minimization starts with tight raw material controls, in-line solvent recovery, and scrubber systems tuned to brominated stream purification. We found that handling extremely pure starting materials cuts work-up requirements for downstream users, trimming overall solvent footprints. In every campaign, efforts focus on maximizing product isolation and recycling wherever possible, rather than chasing volume at the expense of environmental impact.
We offer more than just shipments out the door. Whether you’re designing pilot plant runs or early medicinal chemistry routes, you benefit from support built on real manufacturing experience. Our people have run this compound in five-, fifty-, and five-hundred-kilo setups. That firsthand knowledge answers technical questions fast—solubility tips, protective handling, and storage recommendations come from direct daily work, not from manuals. You gain insight from operators who watch each crystallization, not from distant corporate scripts.
Scaling up a chemistry project demands trust in each intermediate. Nothing is tougher than discovering a new impurity as you ramp up a key step. We’ve had our own headaches qualifying a new intermediate, so we tuned our QC to root out lot-to-lot variation. We sample aggressively across each batch rather than relying on spot checks. Feedback cycles with R&D teams led to clear labeling and responsive troubleshooting at every stage. Our material lets you focus on breakthroughs—not fighting unknowns in the raw materials.
Fine chemical demand never sits still. Research teams experiment with new catalytic methods and coupling strategies each month. On our end, that means staying flexible and responsive. As more users explore biocatalytic or flow processing, we stand ready to adapt both production and packaging. We track regulatory changes closely, especially with respect to new safety data, solvent restrictions, or handling protocols. Decades of hands-on experience allow us to prepare, not just react, when specifications shift.
Downstream users often need confirmation of the smallest analytical details. We’ve designed our processes so users receive exactly what the report describes: nothing more, nothing less. Each NMR and HPLC trace speaks to what’s inside, and our support team explains those reports in plain terms. Every course correction in our workflow comes from on-the-floor results – we don’t hide behind “standard practice” when active troubleshooting solves a user’s challenge. That’s made a difference to clients tired of trial-and-error with less direct sources.
Clients voice a clear preference for sourcing direct from the facility—especially as project timelines shorten. We control every kilo of 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine produced, all the way from raw material qualification through final packaging and shipping. Each campaign builds on the lessons of the last, with improvements coming from both customer feedback and in-house supervision. No outside handlers add uncertainty or noise. The supply chain flows from us to you, period.
Chemical manufacturing doesn’t improve by standing still. Upgrades to our plant—new reactors, improved filtration units, advanced NMR and GC spectrometers—give our production chemists direct control. This means we do more than “meet minimums.” Every improvement passes through pilot runs and real product assessment before going into full production. The result shows up in cleaner material, fewer off-spec batches, and repeatable shipment quality across the board.
The people assembling your batches of 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine care about more than just the next order. They’ve solved actual production challenges—like managing tricky brominations, handling low-melting solids, or nailing down hard-to-detect impurities. That expertise isn’t locked up in technical papers; it’s shared freely as part of every partnership. Customers come back to us because we aren’t guessing. If a chemist has a new transformation method to test, we help chart the fastest, safest, and most predictable way from first milligrams in the lab to pilot lots. Every kilo ships with an invisible dividend of experience.
Our place as a direct manufacturer grew from seeing research teams spend far too much time working around uncertain material supply. If a client sends back news of a failed coupling or mysterious off-product, we stop and work through the details—often sending direct samples, running trial reactions, or helping interpret analytical traces. We put as much stock in accountability as in analytics. Over the years, this commitment has carved out lasting partnerships across pharma, specialty chemical, and crop science labs. Buyers report confidence in ramping up projects, knowing direct communication solves bottlenecks, not patchwork solutions.
Research thrives on reliable building blocks. Direct manufacture of 2-Bromo-6-(1-hydroxy-1-methylethyl)pyridine removes one more barrier to innovation, letting you move from trial experiments to full campaigns without second-guessing the starting point. After countless scale-ups, reformulations, and troubleshooting sessions, our team cares deeply about each molecule shipped. Our approach rests on experience—not marketing language or wishful thinking. Your chemistry deserves the solid ground that comes from a direct source who knows the details by heart.
